EP1773209A2 - Instrument zur erzeugung einer anastomose von geweben, die zwei körperlumen definieren - Google Patents

Instrument zur erzeugung einer anastomose von geweben, die zwei körperlumen definieren

Info

Publication number
EP1773209A2
EP1773209A2 EP05766539A EP05766539A EP1773209A2 EP 1773209 A2 EP1773209 A2 EP 1773209A2 EP 05766539 A EP05766539 A EP 05766539A EP 05766539 A EP05766539 A EP 05766539A EP 1773209 A2 EP1773209 A2 EP 1773209A2
Authority
EP
European Patent Office
Prior art keywords
tube
anchor
positioner
bladder
instrument
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP05766539A
Other languages
English (en)
French (fr)
Other versions
EP1773209A4 (de
Inventor
Robert P. Gill
Christopher J. Hess
William B. Ii. Weisenburgh
James W. Voegele
Muta M. Issa
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ethicon Endo Surgery Inc
Original Assignee
Ethicon Endo Surgery Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US11/093,694 external-priority patent/US7559939B2/en
Application filed by Ethicon Endo Surgery Inc filed Critical Ethicon Endo Surgery Inc
Publication of EP1773209A2 publication Critical patent/EP1773209A2/de
Publication of EP1773209A4 publication Critical patent/EP1773209A4/de
Withdrawn legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/0401Suture anchors, buttons or pledgets, i.e. means for attaching sutures to bone, cartilage or soft tissue; Instruments for applying or removing suture anchors
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/0482Needle or suture guides
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/064Surgical staples, i.e. penetrating the tissue
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/064Surgical staples, i.e. penetrating the tissue
    • A61B17/0644Surgical staples, i.e. penetrating the tissue penetrating the tissue, deformable to closed position
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/068Surgical staplers, e.g. containing multiple staples or clamps
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/11Surgical instruments, devices or methods, e.g. tourniquets for performing anastomosis; Buttons for anastomosis
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/11Surgical instruments, devices or methods, e.g. tourniquets for performing anastomosis; Buttons for anastomosis
    • A61B17/115Staplers for performing anastomosis in a single operation
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/0401Suture anchors, buttons or pledgets, i.e. means for attaching sutures to bone, cartilage or soft tissue; Instruments for applying or removing suture anchors
    • A61B2017/0412Suture anchors, buttons or pledgets, i.e. means for attaching sutures to bone, cartilage or soft tissue; Instruments for applying or removing suture anchors having anchoring barbs or pins extending outwardly from suture anchor body
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/0401Suture anchors, buttons or pledgets, i.e. means for attaching sutures to bone, cartilage or soft tissue; Instruments for applying or removing suture anchors
    • A61B2017/0417T-fasteners
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/0401Suture anchors, buttons or pledgets, i.e. means for attaching sutures to bone, cartilage or soft tissue; Instruments for applying or removing suture anchors
    • A61B2017/0419H-fasteners
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/0401Suture anchors, buttons or pledgets, i.e. means for attaching sutures to bone, cartilage or soft tissue; Instruments for applying or removing suture anchors
    • A61B2017/0427Suture anchors, buttons or pledgets, i.e. means for attaching sutures to bone, cartilage or soft tissue; Instruments for applying or removing suture anchors having anchoring barbs or pins extending outwardly from the anchor body
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/06Needles ; Sutures; Needle-suture combinations; Holders or packages for needles or suture materials
    • A61B17/06166Sutures
    • A61B2017/06176Sutures with protrusions, e.g. barbs
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/064Surgical staples, i.e. penetrating the tissue
    • A61B2017/0647Surgical staples, i.e. penetrating the tissue having one single leg, e.g. tacks
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/11Surgical instruments, devices or methods, e.g. tourniquets for performing anastomosis; Buttons for anastomosis
    • A61B2017/1103Approximator
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/11Surgical instruments, devices or methods, e.g. tourniquets for performing anastomosis; Buttons for anastomosis
    • A61B2017/1135End-to-side connections, e.g. T- or Y-connections
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/11Surgical instruments, devices or methods, e.g. tourniquets for performing anastomosis; Buttons for anastomosis
    • A61B2017/1139Side-to-side connections, e.g. shunt or X-connections
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/22Implements for squeezing-off ulcers or the like on the inside of inner organs of the body; Implements for scraping-out cavities of body organs, e.g. bones; Calculus removers; Calculus smashing apparatus; Apparatus for removing obstructions in blood vessels, not otherwise provided for
    • A61B2017/22051Implements for squeezing-off ulcers or the like on the inside of inner organs of the body; Implements for scraping-out cavities of body organs, e.g. bones; Calculus removers; Calculus smashing apparatus; Apparatus for removing obstructions in blood vessels, not otherwise provided for with an inflatable part, e.g. balloon, for positioning, blocking, or immobilisation
    • A61B2017/22065Functions of balloons
    • A61B2017/22069Immobilising; Stabilising
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/28Surgical forceps
    • A61B17/29Forceps for use in minimally invasive surgery
    • A61B2017/2901Details of shaft
    • A61B2017/2905Details of shaft flexible
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/28Surgical forceps
    • A61B17/29Forceps for use in minimally invasive surgery
    • A61B17/2909Handles
    • A61B2017/2912Handles transmission of forces to actuating rod or piston
    • A61B2017/2923Toothed members, e.g. rack and pinion

Definitions

  • the present invention relates generally to the anastomosis of two hollow organs, a hollow organ and a vessel or two vessels, and is particularly directed to a method and embodiments of a device that accomplish the same in a minimally invasive manner. More particularly, the present invention also relates to an anastomosis instrument and method that may be used for the anastomosis of the bladder and urethra, especially after a patient's prostate has been removed in a prostatectomy.
  • Prostate cancer is the second most common malignancy in males after cutaneous malignancies and is the second most common cause of cancer death among men in the United States. Prostate cancer is predominantly a disease of elderly men, and the absolute number of cases is expected to increase as worldwide life expectancy increases.
  • FIG. 1 is a partial, vertical sectional schematic depiction of the positional relationships of the human male bladder, prostate and urethra, and surrounding pelvic floor, prior to a prostatectomy;
  • FIG. 2 is a partial, vertical sectional schematic depiction of the positional relationships of the human male bladder and urethra, and surrounding pelvic floor, following a prostatectomy;
  • FIG. 3 is a perspective view of an anastomotic instrument having an actuator handle, a driver assembly and a positioner assembly in accordance with one embodiment of the present invention
  • FIG. 4 is a longitudinal cross-sectional view of the actuator handle of the anastomotic instrument shown in FIG. 3;
  • FIG. 5 is an expanded longitudinal cross-sectional view of the proximal end of the actuator handle of the anastomotic instrument shown in FIG. 3;
  • FIG. 6 is an expanded longitudinal cross-sectional view of the distal end of the actuator handle of the anastomotic instrument shown in FIG. 3;
  • FIG. 7 is a longitudinal cross-sectional view of the tube assembly, positioner assembly and driver assembly of the instrument shown in FIG. 3;
  • FIG. 8 is an expanded longitudinal cross-sectional view of the bridge assembly portion of the tube assembly shown in FIG. 7;
  • FIG. 9 is an expanded transverse cross-sectional view of the bridge assembly shown in FIG. 8;
  • FIG. 10 is an expanded longitudinal cross-sectional view of the bridge assembly shown in FIG. 8;
  • FIG. 11 is an expanded longitudinal cross-sectional view of a positioner assembly part of the anastomotic instrument shown in FIG. 3;
  • FIG. 12 is a longitudinal cross-sectional view of the driver assembly part of the anastomotic instrument shown in FIG. 3;
  • FIG. 13 is a perspective illustration of embodiments of the positioner and driver assemblies of the anastomotic instrument shown in FIG. 3;
  • FIG. 14 is a perspective illustration of embodiments of the positioner and driver assemblies of the anastomotic instrument shown in FIG. 3 with the positioner and driver assemblies shown in open positions;
  • FIG. 15 is a cross-sectional overhead view of the positioner and driver assemblies of the anastomotic instrument shown in FIG. 14 showing the driver arms and positioner arms in open positions;
  • FIG. 16 is an expanded perspective view of the driver assembly of the anastomotic instrument shown in FIG. 14, showing driver arms, driver pins and anchors;
  • FIG. 17 is a longitudinal cross-sectional view of another embodiment of an anastomotic instrument in accordance with the present invention.
  • FIG. 18 is a transverse cross-sectional view of a driver assembly part of the anastomotic instrument shown in FIG. 17;
  • FIG. 19 is a longitudinal cross-sectional view of the anastomotic instrument shown in FIG. 17, with driver and positioner petal assemblies shown in opened positions;
  • FIG. 20 is a longitudinal cross-sectional view of the anastomotic instrument shown in FIG. 17, showing positioner petals in contact with tissue and anchor driver pins and anchors partially deployed into tissues;
  • FIG. 21 is a longitudinal cross-sectional view of the anastomotic instrument shown in FIG. 17, showing positioner petals in contact with tissues and anchor driver pins and anchors driven into tissues;
  • FIG. 22 is a longitudinal cross-sectional view of another alternate embodiment of an anastomotic instrument of the present invention.
  • FIG. 23 is a cross-sectional view of the driver assembly part of the anastomotic instrument shown in FIG. 22;
  • FIG. 24 is a longitudinal cross-sectional view of the anastomotic instrument shown in FIG. 22, with positioner petals shown in opened positions;
  • FIG. 25 is a longitudinal cross-sectional view of the anastomotic instrument shown in FIG. 22, with positioner petals and a driver assembly shown in opened positions;
  • FIG. 26 is a longitudinal cross-sectional view of the anastomotic instrument shown in FIG. 22, showing positioner petals in contact with tissue and anchor driver pins and anchors driven into tissues;
  • FIG. 27 is an overhead view of the positioner assembly of the anastomotic instrument shown in FIG. 24 with the driver assembly removed for purposes of illustration, showing the positioner petals in opened positions;
  • FIG. 28 is a perspective illustration of the alternate anastomotic instrument shown in FIG. 17, shown in a closed position;
  • FIG. 29 is a perspective illustration of the alternate anastomotic instrument shown in FIG. 17, shown in an opened position;
  • FIG. 30 is a perspective illustration of the alternate anastomotic instrument shown in FIG. 22, shown in an opened position;
  • FIG. 31 is an illustration of an anastomotic instrument fully inserted through a patient's urethra and into the bladder, following a prostatectomy;
  • FIG. 32 is an illustration showing an anastomotic instrument fully inserted through a patient's urethra and into the bladder following a prostatectomy, with driver and positioner assemblies opened;
  • FIG. 33 is an illustration showing an anastomotic instrument fully inserted through a patient's urethra and into the bladder following a prostatectomy, with a positioner assembly urging the bladder wall into contact with the pelvic floor with the openings in the bladder and urethra aligned;
  • FIG. 34 is an illustration showing an anastomotic instrument fully inserted through a patient's urethra and into the bladder following a prostatectomy, and with a driver assembly actuated and anchors driven through the bladder wall and into the pelvic floor;
  • FIG. 35 is an illustration showing an anastomotic instrument inserted through the urethra and into the bladder, with a driver assembly and driver pins retracted and withdrawn from anchors, which are left installed through the bladder wall and into the pelvic floor;
  • FIG. 36 is an illustration showing an anastomotic instrument fully inserted through a patient's urethra and into the bladder following a prostatectomy, with driver and positioner assemblies returned to initial retracted positions following installation of anchors;
  • FIG. 37 is an illustration showing the bladder and urethra after installation of anchors and removal of an anastomotic instrument used to effect such installation, and showing a guide wire left in place for guiding a catheter into the bladder through the urethra;
  • FIG. 38 is a schematic illustration showing the bladder and urethra after installation of anchors and removal of an anastomotic instrument used to effect such installation, and showing a balloon catheter system inserted into the bladder through the urethra and leading to a urine collection bag;
  • FIG. 39 is a perspective illustration of an embodiment of an anchor
  • FIG. 40 is a perspective illustration of an alternate embodiment of an anchor
  • FIG. 41 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG. 42 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG. 43 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG. 44 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG.45 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG. 46 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG. 47 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG. 48 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG. 49 is a perspective illustration of an alternate embodiment of an anchor shaft and tip
  • FIG. 50 is a perspective illustration of an alternate embodiment of an anchor shaft and tip; [0064] FIG. 51 is a perspective illustration of an alternate embodiment of an anchor shaft and tip;
  • FIG. 52 is a schematic illustration of a driving button assembly shown in a cocked position
  • FIG. 53 is a schematic illustration of a driving button assembly shown in a released position
  • FIG. 54 is a schematic illustration of a driving button assembly shown in a forward seating position
  • FIG. 55 is a perspective view of an embodiment of an antegrade vesico urethral anastomosis instrument in accordance with the present invention.
  • FIG. 56 is a partial view of the instrument shown in FIG. 55, including a curved tube assembly and anastomosis end effector, inserted into the bladder of a patient as used in accordance with the present invention
  • FIG. 57 is a partial view of the instrument shown in FIG. 55, including an opened positioner assembly as used in accordance with the present invention
  • FIG. 58 is a partial view of the instrument shown in FIG. 55, including an opened anchor assembly as used in accordance with the present invention
  • FIG. 59 is a partial view of the instrument shown in FIG. 55, showing positioner arms urging the bladder wall into contact with the pelvic floor in accordance with the present invention
  • FIG. 60 is a partial view of the instrument shown in FIG. 55, after anchors have been driven through the bladder wall into the pelvic floor in accordance with the present invention
  • FIG. 61 is a partial view of the instrument shown in FIG. 55, following withdrawal of anchor driver pins from installed anchors in accordance with the present invention
  • FIG. 62 is a partial view of the instrument shown in FIG. 55, after partial retraction of the instrument to unfold a harness in accordance with the present invention
  • FIG. 63 is a partial view of the instrument shown in FIG. 55, following closing of an anchor assembly and positioner assembly in preparation for their withdrawal, to leave a balloon assembly and catheter behind in accordance with the present invention
  • FIG. 64 is a partial view of the instrument shown in FIG. 55, after removal of a positioner assembly and anchor assembly, used in accordance with the present invention, has commenced;
  • FIG. 65 is a partial view of the instrument shown in FIG. 55, after removal of a positioner assembly and anchor assembly, and after inflation of a balloon secured with an anchored harness, used in accordance with the present invention
  • FIG. 66 is a perspective view of a harness portion of the instrument shown in FIG.
  • FIG. 67 is a longitudinal cross-sectional view of an embodiment of a balloon assembly that may be adapted for use in accordance with the present invention.
  • FIG. 68 is a transverse cross-sectional view of a catheter that may be used in accordance with the present invention.
  • FIG. 69 is a longitudinal cross-sectional view of one embodiment of a catheter cap and a urine collection bag that may be used in accordance with the present invention.
  • FIG. 70 is an exploded view of an embodiment of an end effector assembly of the instrument shown in FIG. 55;
  • FIG. 71 is a longitudinal and perspective sectional, partial view of an embodiment of an end effector assembly of the instrument shown in FIG. 55, showing an open anchor assembly and partially open positioner assembly;
  • FIG. 72 is a longitudinal and perspective sectional view of a transitional tube portion of an anastomosis instrument such as shown in FIG. 55, showing exemplary linkages for actuator tubes;
  • FIG. 73 is a longitudinal cross-sectional view of a closing tube latching collar portion of the instrument shown in FIG. 55, in a closed position;
  • FIG. 74 is a longitudinal cross-sectional view of a closing tube latching collar portion of the instrument shown in FIG. 55, in an open position;
  • FIG. 75 is a side cross-sectional view of an embodiment of a handle assembly of the instrument shown in FIG. 55;
  • FIG. 76 is an exploded perspective view of the handle assembly shown in FIG.
  • FIG. 77 is a sectional view of a positioner assembly and connected portions of the handle assembly shown in FIG. 55, showing the components involved in the operation of the positioner assembly,
  • FIG. 78 is a perspective view of a positioner assembly of the instrument shown in
  • FIG. 55 shown partially open
  • FIG. 79 is a sectional view of an anchor assembly and connected portions of the handle assembly shown in FIG. 55, showing the components involved in opening and closing the anchor assembly;
  • FIG. 80 is an exploded perspective view of a closing tube latching collar, and associated components, of the instrument shown in FIG. 55;
  • FIG. 81 is a sectional view of an anchor assembly and connected portions of the handle assembly shown in FIG. 55, showing the components involved in driving anchors;
  • FIG. 82 is a sectional view of a curved spine tube and connected portions of the handle assembly shown in FIG. 55, showing a fixed, skeletal structure of the instrument;
  • FIG. 83 is a perspective view of the distal and proximal ends of another embodiment of an anastomotic instrument of the present invention, shown in a retracted, pre-deployment position, with the intermediate section removed for ease of depiction in the drawing;
  • FIG. 84 is a longitudinal cross section of the distal end of the instrument shown in
  • FIG. 83 shown in a retracted, pre-deployment position
  • FIG. 85 is a longitudinal cross section of an embodiment of a handle assembly adapted for use at the proximal end of an anastomotic instrument of the present invention
  • FIG. 86 is a partial transverse cross section of the instrument shown in FIG. 84, indicated at 86-86 of FIG. 84, showing sectional views of an outer driver assembly tube, anchor driver pin, inner driver assembly tube, positioner tube, and anchor, loaded into the instrument in a pre-deployment position;
  • FIG. 87 is a side view of a forward member of an anchor that may be used with the instrument shown in FIG. 83, shown in a pre-deployment position as in contact with an anchor driver pin;
  • FIG. 88 is a longitudinal cross section of the instrument shown in FIG. 83, shown in a retracted, pre-deployment position after insertion into and through a patient's urethra and into the bladder, following a prostatectomy;
  • FIG. 89 is a longitudinal cross section of the instrument shown in FIG. 83, shown after insertion into and through a patient's urethra and into the bladder, and after a positioner has been moved to a deployed position;
  • FIG. 90 is a longitudinal cross section of an embodiment of the instrument shown in FIG. 83, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, and after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned;
  • FIG. 91 is a longitudinal cross section of the instrument shown in FIG.
  • FIG. 92 is a longitudinal cross section of the instrument shown in FIG. 83, shown after insertion into and through the urethra and into the bladder, after a positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, after anchors have been installed, and after retraction of an anchor driver assembly has commenced, to leave a positioner and positioner tube behind to enable draining of urine from the bladder during recovery and healing;
  • FIG. 93 is a longitudinal cross section of another alternative embodiment of an anastomotic instrument of the present invention, shown after a positioner has been moved to a deployed position, comprising an alternative configuration of driver pins and an outer driver assembly tube;
  • FIG. 94 is a longitudinal cross section of another alternative embodiment of an anastomotic instrument of the present invention, shown after a positioner has been moved to a deployed position, comprising an alternative configuration of driver pins and an outer driver assembly tube, and showing an alternative pre- deployment orientation of rearward members and connecting members of anchors;
  • FIG. 95 is a perspective view of the distal and proximal ends of another embodiment of an anastomotic instrument in accordance with the present invention, shown in a retracted, pre-deployment position, with the intermediate section removed for ease of depiction in the drawing;
  • FIG. 96 is a longitudinal cross section of the distal end of the instrument shown in
  • FIG. 95 shown in a retracted, pre-deployment position
  • FIG. 97 is a partial transverse cross section of the instrument shown in FIG. 96, indicated at 97-97 of FIG. 96, showing sectional views of a second anchor guide collar, first anchor guide collar, positioner tube, and a first anchor and trailing suture, loaded into the instrument in pre-deployment positions;
  • FIG. 98 is a partial transverse cross section of the instrument shown in FIG. 96, indicated at 98-98 of FIG. 96, showing sectional views of an outer driver assembly tube, anchor guide collar, anchor driver pin, inner driver assembly tube, positioner tube, and second anchor and an end of a trailing suture, loaded into the instrument in pre-deployment positions;
  • FIG. 99 is an enlarged perspective view of an embodiment of a first anchor that may be used in the instrument shown in FIG. 95, shown in a deployed shape;
  • FIG. 100 is an enlarged frontal view of an embodiment of a second anchor that may be used in the instrument shown in FIG. 95, shown in a deployed shape;
  • FIG. 101 is an enlarged side view of the second anchor shown in FIG. 100;
  • FIG. 102 is a longitudinal cross section of the instrument shown in FIG. 95, shown in a retracted, pre-deployment position after insertion into and through a patient's urethra and into the bladder, following a prostatectomy;
  • FIG. 103 is a longitudinal cross section of the instrument shown in FIG. 95, shown after insertion into and through a patient's urethra and into the bladder, and after a positioner has been moved to a deployed position;
  • FIG. 104 is a longitudinal cross section of the instrument shown in FIG. 95, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, and after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned;
  • FIG. 105 is a longitudinal cross section of the instrument shown in FIG. 95, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, and after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned;
  • FIG. 105 is a longitudinal cross section of the instrument shown in FIG.
  • FIG. 106 is a longitudinal cross section of the instrument shown in FIG. 95, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, after a first actuation of an anchor driver assembly to drive first anchors into the tissues of the bladder wall surrounding the bladder opening, and after repositioning of anchor driver pins in preparation to drive second anchors;
  • FIG. 107 is a longitudinal cross section of the instrument shown in FIG. 95, shown after insertion into and through a patient's urethra and into the bladder, after the positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, after a first actuation of an anchor driver assembly to drive first anchors into the tissues of the bladder wall surrounding the bladder opening, and after a second actuation of an anchor assembly to drive second anchors into the tissues surrounding the urethra opening;
  • FIG. 108 is a longitudinal cross section of the instrument shown in FIG. 95, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, after anchor pairs and connecting sutures have been installed, and after retraction of an anchor driver assembly has commenced, to leave the positioner and a positioner tube behind to enable draining of urine and other fluids from the bladder during recovery and healing;
  • FIG. 109 is a longitudinal cross section of the instrument shown in FIG. 95, shown after retraction of an anchor driver assembly and after the anastomosis procedure has been completed, with a positioner in a retracted position ready for withdrawal of the remaining parts of the instrument from the bladder, down through the urethra and out of the patient's body;
  • FIG. 110 is a perspective view of another embodiment of the distal and proximal ends of an anastomotic instrument of the present invention, with the intermediate section removed for ease of depiction in the drawing;
  • FIG. 111 is a longitudinal cross section of the instrument shown in FIG. 110, shown in a retracted and pre-deployment position after insertion into and through a patient's urethra and into the bladder, following a prostatectomy;
  • FIG. 112 is a longitudinal cross section of the instrument shown in FIG. 110, shown after insertion into and through a patient's urethra and into the bladder, and after a positioner has been moved to a deployed position;
  • FIG. 113 is a longitudinal cross section of the instrument shown in FIG. 110, shown after insertion into and through the urethra and into the bladder, after a positioner has been moved to a deployed position, and after an expander collar has been drawn into a fastener driver assembly to expand a fastener set;
  • FIG. 114 is a longitudinal cross section of the instrument shown in FIG. 110, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, after an expander collar has been drawn into a fastener driver assembly to expand a fastener set, and after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned;
  • FIG. 115 is a longitudinal cross section of the instrument shown in FIG. 110, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, and after actuation of a fastener driver assembly has begun;
  • FIG. 116 is a longitudinal cross section of the instrument shown in FIG. 110, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, and after a fastener driver assembly has been fully actuated to install a fastener set;
  • FIG. 117 is a longitudinal cross section of the instrument shown in FIG. 110, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, after a fastener driver assembly has been fully actuated to install a fastener set, and after an expander collar has been moved out of the fastener driver assembly to allow the fastener driver assembly to assume a smaller diameter which will allow it to be retracted through the installed fastener set;
  • FIG. 118 is a longitudinal cross section of the instrument shown in FIG. 110, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, after a fastener set has been installed, and after a fastener driver assembly has been withdrawn from the patient to leave the positioner and a positioner tube behind to enable draining of urine and other fluids from the bladder during recovery and healing;
  • FIG. 119 is an enlarged perspective view of a fastener set that may be used with the instrument shown in FIG. 110, shown in the shape it may have prior to expansion and installation;
  • FIG. 120 is an enlarged perspective view of a fastener set that may be used with the instrument shown in FIG. 110, shown in the shape may have after expansion and installation;
  • FIG. 121 is an enlarged perspective view of an end cap of an actuator rod that may be used with the instrument shown in FIG. 110;
  • FIG. 122 is a longitudinal cross section of another embodiment of an anastomotic instrument of the present invention, in a pre-deployment, retracted position;
  • FIG. 123 is a longitudinal cross section of the instrument shown in FIG. 122, shown after insertion into and through a patient's urethra and into the bladder, following a prostatectomy;
  • FIG. 124 is a longitudinal cross section of the instrument shown in FIG. 122, shown after insertion into and through a patient's urethra and into the bladder, and after a positioner has been moved to a deployed position;
  • FIG. 125 is a longitudinal cross section of the instrument shown in FIG. 122, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, and after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned;
  • FIG. 126 is a longitudinal cross section of the instrument shown in FIG. 122, shown after insertion into and through a patient's urethra and into the bladder, after a positioner has been moved to a deployed position, after the bladder wall has been urged into contact with the pelvic floor with the openings in the bladder and urethra aligned, and after a lodging member has been moved to a deployed position;
  • FIG. 127 is an enlarged perspective view of an end cap of a positioner actuating rod, that may be used with the instrument shown in FIG. 122;
  • FIG. 128 is a schematic view of the instrument shown in FIG. 122, shown inserted into a patient with a positioner in a deployed position, with the instrument connected at its proximal end to a urine collection bag;
  • FIG. 129 is a longitudinal cross section of another embodiment of the instrument of the present invention, configured for an antegrade anastomosis procedure, shown in a deployed position;
  • FIG. 130 is a longitudinal cross section of another embodiment of the instrument of the present invention, configured for an antegrade anastomosis procedure, shown in a deployed position;
  • FIG. 131 is a perspective view of an embodiment of a lodging member having perforations and projections
  • FIG. 132 is a longitudinal cross section of the lodging member shown in FIG.
  • FIG. 133 is a longitudinal cross section of another embodiment of a lodging member having perforations and projections;
  • FIG. 134 is a perspective view of an anastomotic instrument having an actuator handle, a tube assembly and an end effector assembly in accordance with one embodiment of the present invention
  • FIG. 135 is a longitudinal cross-sectional view of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder opening;
  • FIG. 136 is a longitudinal cross-sectional view of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, with a positioner assembly and an anchor driver assembly opened, and with the positioner assembly urging the bladder wall into contact with the pelvic floor; T7US2005/021755
  • FIG. 137 is a longitudinal cross-sectional view of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, with a positioner assembly opened, and after a driver assembly has driven anchors through the bladder wall and into the pelvic floor;
  • FIG. 138 is a longitudinal cross-sectional view of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, with a positioner assembly opened, after a driver assembly has driven anchors through the bladder wall and into the pelvic floor, and after driver pins have been withdrawn from the anchors;
  • FIG. 139 is a longitudinal cross-sectional view of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, with a positioner assembly opened, after a driver assembly has driven anchors through the bladder wall and into the pelvic floor, after driver pins have been withdrawn from anchors driven into the pelvic floor, and after the driver assembly has been closed;
  • FIG. 140 is a longitudinal cross-sectional view of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, with a positioner assembly opened, after a driver assembly has driven anchors through the bladder wall and into the pelvic floor, after driver pins have been withdrawn from anchors driven into the pelvic floor, and after the driver assembly and positioner assembly have been closed;
  • FIG. 141 is a longitudinal cross-sectional view of components of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, after installation of anchors, and after positioner and anchor driver assemblies have been withdrawn to leave behind an end cap assembly, anchors installed through the bladder wall and into the pelvic floor, and a balloon harness attached therebetween;
  • FIG. 142 is a longitudinal cross-sectional view of components of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, after installation of anchors, after positioner and anchor driver assemblies have been withdrawn to leave behind an end cap assembly, anchors installed through the bladder wall and into the pelvic floor, and a balloon harness attached therebetween, and after insertion of a balloon catheter assembly;
  • FIG. 143 is a longitudinal cross-sectional view of components of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, after installation of anchors, after positioner and anchor driver assemblies have been withdrawn to leave behind an end cap assembly, anchors installed through the bladder wall and into the pelvic floor, and a balloon harness attached therebetween, after insertion of a balloon catheter assembly, and after inflation of a balloon;
  • FIG. 144 is a longitudinal cross-sectional view of components of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown inserted into and through a patient's urethra and into the bladder lumen, after installation of anchors, after positioner and anchor driver assemblies have been withdrawn to leave behind an end cap assembly, anchors installed through the bladder wall and into the pelvic floor, and a balloon harness attached therebetween, after insertion of a balloon catheter assembly, and after inflation of a balloon, shown one possible alternative embodiment;
  • FIG. 145 is a longitudinal cross-sectional view of components of an end effector assembly of an anastomotic instrument in accordance with one embodiment of the present invention, shown after the anastomosis procedure has been substantially completed, after withdrawal of a balloon catheter assembly, and in successive positions during withdrawal of an end cap assembly and balloon harness;
  • FIG. 146 is a perspective, exploded view of exemplary embodiments of an end cap assembly, balloon harness, and catheter end plug portion of a balloon catheter assembly.
  • FIG. 147 is a transverse (horizontal), superior (top) partial planar view of the human male pelvis and pelvic floor architecture, depicting preferred locations for installation of anchors.
  • anastomosis means the surgical joining of respective tissues defining body lumens and other hollow body structures, especially the joining of hollow vessels, passageways or organs to create an intercommunication between them.
  • patient refers to any human or animal on which an anastomosis maybe performed.
  • biocompatible includes any material that is compatible with the living tissues and system(s) of a patient by not being substantially toxic or injurious and not causing immunological rejection.
  • Biocompatibility includes the tendency of a material to be biocompatible.
  • bioabsorbable includes the ability of a material to be dissolved and/or degraded, and absorbed, by the body.
  • shape memory includes the tendency of a material, such as but not limited to a suitably prepared nickel-titanium alloy ("nitinol”), to return to a preformed shape, following deformation from such shape.
  • nitinol nickel-titanium alloy
  • integral means that two or more parts so described are affixed, fastened or joined together so as to move or function together as a substantially unitary part.
  • “Integral” includes, but is not limited to, parts that are continuous in the sense that they are formed from the same continuous material, but also includes discontinuous parts that are joined, fastened or affixed together by any means so as become substantially immovably affixed to, and substantially unitary with, each other.
  • proximal or any form thereof, with respect to a component of an instrument, means that portion of the component that is generally nearest the surgeon, or nearest to the end of the instrument handled by the surgeon, when in use; and with respect to a direction of travel of a component of an instrument, means toward the end of the instrument generally nearest the surgeon, or handled by the surgeon, when in use.
  • distal means that portion of the component that is generally farthest from the surgeon, or farthest from the end of the instrument handled by the surgeon, when in use; and with respect to a direction of travel of a component of an instrument, means away from the end of the instrument generally nearest the surgeon, or handled by the surgeon, when in use.
  • transverse means extending in a line, plane or direction that is across such axis, i.e., not collinear or parallel therewith.
  • Transverse as used herein is not to be limited to "perpendicular”.
  • the term "longitudinal axis" with respect to an instrument, means the exact or approximate central axis defined by said instrument along its greater dimension, i.e., along its length, from its distal end to its proximal end, and vice versa, and is not intended to be limited to imply a straight line, wherein, for example, an instrument includes a bend angle as described herein, it is intended that "longitudinal axis" as used herein follows such bend angle.
  • longitudinal axis means the exact or approximate central axis defined by said end effector extending along its greater dimension, i.e., along its length, from its distal end to its proximal end, and vice versa.
  • the method and instrument of the present invention utilizes a simple, effective mechanical arrangement for performing anastomosis of respective tissues defining two body lumens, for example, connecting the bladder to the urethra following a prostatectomy.
  • anastomosis techniques are improved.
  • an improved instrument for bringing bladder wall tissues into contact with the pelvic floor tissues, with the openings in the bladder and urethra aligned, and for securing them in position so that they may knit and heal together.
  • the number of steps in the anastomosis procedure may be decreased, decreasing cost and reducing the required time for the procedure.
  • the present invention may also eliminate complications associated with other anastomosis techniques that require hand suturing.
  • the present invention provides for a system that allows for, for example, connecting the bladder to the urethra using an instrument inserted through the urethra and into the bladder (in retrograde direction) without the need for access inside the bladder for manipulation and actuation of the instrument.
  • the system and instrument may be configured such that it may be inserted into the bladder and then the urethra in an antegrade direction, through small incisions in the patient's abdomen and an upper surface of the bladder. Again, manipulation and actuation of the instrument may be performed by the surgeon from outside the patient's body.
  • FIG. 1 schematically illustrates in vertical cross section the positioning of a human male bladder 1, bladder wall 2, prostate 3, pelvic floor 7 and urethra 5, prior to a prostatectomy.
  • the prostate 3, a lower portion of the bladder wall 2, and an upper portion of the urethra 5 are excised, removing the fluid connection between the bladder lumen 8 and the remaining portion of the urethra.
  • the substantially horizontal broken lines in FIG. 1 schematically illustrate the lines along which the prostate and adjacent bladder and urethra tissues are excised.
  • FIG. 2 depicts an anatomical cross-section of the abdominal cavity following a radical prostatectomy wherein the excision of a portion of the bladder wall 2 results in a bladder opening 4 and the excision of the prostate results in a urethra opening 6 in urethra 5.
  • bladder opening 4 is typically reduced in size by means known in the art, such as a "tennis racket" suture technique.
  • FIGS. 3-16 show an embodiment of an instrument 10 which may be used to perform an anastomosis procedure, for example, a procedure to effect anastomosis of a patient's bladder and urethra following a prostatectomy.
  • one embodiment of the anastomotic applier instrument 10 in accordance with the invention may comprise an elongated tube assembly 500, a driver assembly 300 secured onto the distal end of the tube assembly 500, an optional positioner assembly 400 which may be used to bring the bladder wall and the pelvic floor tissues into close proximity or contact, and an actuator handle 100 for effecting opening of the positioner and driver assemblies and the driving and seating of anchors, hi general, the instrument maybe used for performing a vesico-urethral anastomosis after the prostate has been removed in a radical retropubic prostatectomy (see FIGS. 1 and 2). This connection is necessary to restore the patient's urinary functions after the prostatectomy.
  • FIG. 4 shows an embodiment of an actuator handle 100 of the anastomotic instrument shown in FIG. 3.
  • Handle 100 is operatively connected to the proximal end of the elongated tube assembly 500, which transmits manipulating and actuating forces from the handle 100 to the positioner assembly 400 and driver assembly 300 at the distal end of the tube assembly 500.
  • Outer tube 510 is affixed by any suitable means to and is substantially integral with handle housing 112, and housing 112 and outer tube 510 are substantially stationary and skeletal with respect to the other, moving, parts of the handle 100 and tube assembly 500.
  • Medial actuator tube 280 both rotates and moves longitudinally with respect to outer tube 510, in response to input from the surgeon as will be hereinafter described, and thereby transmits rotational and longitudinal actuating forces and movement through tube assembly 500.
  • the handle 100 may comprise a housing
  • the housing 112 having actuating mechanisms disposed therein as will be hereinafter described.
  • the housing 112 may include two or more parts, having alignment pins 105 and mating holes to facilitate assembly and make the parts integral after assembly.
  • Housing 112 contains actuating mechanisms to effect rotational and longitudinal actuating forces and movement hi medial actuator tube 280.
  • knob 110 may be an actuating member for manipulation by a surgeon, and may be adapted to be pushed distally by the surgeon, and urged back proximally by knob return spring 150, with respect to housing 112.
  • Knob 110 may also be adapted to be rotated by the surgeon with respect to housing 112 by the surgeon.
  • knob 110 may be rotatable and movable longitudinally within housing 112, within the limits of longitudinal travel defined by knob track 116 in housing 112, as the ends thereof stop longitudinal movement of knob 110 by contact with knob rim 111.
  • Knob 110 may also be hollow, having guidewire passage 114 therethrough.
  • knob 110 may be one or more longitudinal spline grooves 115. Spline grooves 115 can slidably mate with one or more splines 185 of proximal rotation tube 180.
  • knob 110 and proximal rotation tube 180 may be coupled with respect to rotational movement, but not coupled with respect to longitudinal movement and therefore, be longitudinally slidable with respect to one another.
  • rotation of knob 110 can effect corresponding rotation of proximal rotation tube 180.
  • proximal rotation tube 180 may be fixedly coupled to medial actuator tube 280.
  • rotation of knob 110 can effect corresponding rotation of medial actuator tube 280, while longitudinal movement of knob 110 will not effect longitudinal movement of medial actuator tube 280.
  • knob 110 may be turned to effect corresponding rotational movement in medial actuator tube 280, so as to open driver assembly 300 and positioner assembly 400 as will be described below.
  • FIGS. 5 and 6 depict handle 100 in an uncocked, pre-deployment position.
  • an anchor driver assembly of the present invention (such as that shown in FIG. 3 at 300) requires longitudinal force and movement of a member in a proximal direction in order to drive anchors. This force and movement in a proximal direction may be effected by handle 100 via medial actuator tube 280.
  • Medial actuator tube 280 may be drawn in a longitudinally proximal direction, i.e., rearwardly, into handle 100, through a mechanism that will now be described.
  • a driving spring 160 may be contained within housing 112, in compression, as shown in FIGS. 5 and 6.
  • the proximal end of driving spring 160 contacts and acts against the distal end of a proximal linking tube 140, urging linking tube 140 to move in a proximal direction with respect to housing 112.
  • the proximal end of linking tube 140 rotatably and slidably fits around an interior spindle 117 of knob 110 and rests against spindle shoulder 118.
  • driving tube 120 is in a forward, distal position inside housing 112.
  • Driving tube 120 is connected at its distal end to proximal rotation tube 180 via lip 123, such that proximal rotation tube 180 is free to rotate within driving tube 120, but by the arrangement shown, driving tube 120 and proximal rotation tube 180 are configured to be linked and move as a unit in a longitudinal direction.
  • Driving tube 120 may be prevented from rotating so as not to interfere with actuation of driving button pawl 205, by one or more pins 128 affixed in housing 112, engaged in driving tube pin slot 129.
  • driving button 202 may be integral with driving button pawl 205, and driving button 202 and correspondingly driving button pawl 205 are biased in a counterclockwise direction by spring 235, such that pawl 205 is biased downward into driving tube firing slot 210.
  • a surgeon may depress knob 110 in a longitudinal, distal direction within housing 112 (to the right with respect to FIG. 5).
  • Linking tube 140 has affixed at its proximal end one or more driving tube engagers 170, which may be spring- biased inwardly and have latching ends 171 that protrude inwardly through slots in linking tube 140 as shown.
  • linking tube 140 Upon longitudinal movement of linking tube 140 in a distal direction as a result of depressing knob 110, latching ends 171 can moveably engage and latch upon latching shoulder 126 of driving tube 120, latching driving tube 120 to linking tube 140 such that the two will move as a unit in a rearward, proximal longitudinal direction, in response to force exerted on linking tube 140 by driving spring 160, once driving tube 120 is released as will be described below.
  • driving spring 160 is charged and the handle is thereby cocked for driving anchors as will be hereinafter described.
  • knob return spring 150 After cocking, knob 110 is urged to return to its proximal (rearward) position by knob return spring 150.
  • Knob return spring 150 and driving spring 160 may be coaxially aligned and separated by a spring divider 130.
  • Driving tube 120 is released and permitted to be driven in a longitudinal proximal
  • Driving tube 120 is thereby released to be driven rearwardly (to the left with respect to FIGS. 5 and 6) under the force exerted by driving spring 160, acting on linking tube 140, linked to driving tube 120 via driving tube engagers 170.
  • driving spring 160 acting on linking tube 140, linked to driving tube 120 via driving tube engagers 170.
  • driving tube 120 is driven rearwardly, it correspondingly pulls medial actuator tube 280 rearwardly a corresponding distance, via lip 123.
  • This actuation constitutes "firing" the handle 100 to pull medial actuator tube 280 in a longitudinal proximal (rearward) direction into handle 100, which may be used to drive anchors as will be described below.
  • driving button 202 which will both maintain pawl 205 in retraction slot 225, and also urge pin 230 down and out of rocker detent 238 in driving button slot 240, enabling the surgeon to urge driving tube 120 further proximally and thus further drive anchors a distance allowed by seating extension 220 in driving button slot 240, and/or further seat anchors into tissues, as will be described below.
  • This arrangement may also transfer to the surgeon touch-perceptible feedback through driving button 202 as to how much pressure is being exerted to drive and seat anchors.
  • knob 110 may be turned to effect corresponding rotational movement in medial actuator tube 280 so as to retract or close driver assembly 300 and positioner assembly 400 as will be described below.
  • various pieces of the handle assembly may be an integral structure formed from several components, or these features may be an integrally molded from a material such as plastic so as to form a single integral structure.
  • the handle assembly may be constructed from conventional materials for surgical instruments, for example a metal such as stainless steel or plastic.
  • the instrument may be constructed primarily from conventional metal or plastic materials so that it is inexpensive to manufacture and can be disposable.
  • the instrument may also be sold in a package that is presterilized for surgical use.
  • Housing 112, driving button 202, spring divider 130 and knob 110 may be formed of plastic or any suitable material having necessary properties of strength, stiffness and formability. It may be desirable for spline grooves 115 to be a suitable metal for improved hardness and wear resistance, such that spline grooves 115 would be part of a metal insert around which knob 110 is formed.
  • Proximal actuator tube 180, linking tube 140 and driving tube engagers 170, driving tube 120, medial actuator tube 280 and outer tube 510 may be formed of stainless steel, plastic or any other suitable material having necessary properties of strength, hardness and stiffness.
  • Springs 150, 160 and 235 may be formed of spring steel or any suitable material that would have suitable formability, shape memory, stiffness (spring constant) and strength properties.
  • proximal actuator tube 180, linking tube 140, driving tube 120, medial actuator tube 280 and outer tube 510 are depicted as having tube shapes, they may also have any shape suitable for transmitting longitudinal and rotational forces and movement to a distal end as required for an instrument of the present invention.
  • proximal actuator tube 180, linking tube 140, driving tube 120, medial actuator tube 280 and outer tube 510 are depicted as having tube shapes, they may also have any shape suitable for transmitting longitudinal and rotational forces and movement to a distal end as required for an instrument of the present invention.
  • mechanism that supplies the driving force supplied by driving spring 160 may also be other biasing or driving devices including but not limited to levers, gears, pressurized gases/fluids and any other mechanisms for selectively deploying linear driving forces known in the art.
  • driving button 202 is linked to the mechanism by driving button pin 230, captured by driving button pin boss 206.
  • Driving button 202 includes driving button pawl 205, driving pin boss 206, driving trigger 204 and retraction member 207.
  • Driving button 202 is angularly movable about driving button pin 230 which is captured by driving pin boss 206, and driving button pin 230 may slidably ride in a longitudinal direction with respect to the length of the instrument, in driving button groove 240, which includes rocker detent 238.
  • One or more springs 235 are provided which act upon driving button 202 in two ways: First, to urge driving button 202 upward such that driving button pin 230 is urged upward, in orientation with respect to FIGS. 52-54, and such that driving pin 230 is urged into rocker detent 238, when driving trigger 204 is not being depressed; second, to urge driving button 202 in a counterclockwise direction, such that driving trigger 204 and driving button pawl 205 are urged in a counterclockwise direction, about driving button pin 230, with respect to FIGS. 52-54, thus maintaining driving button pawl 205 engaged with driving tube retention slot 210. It will be appreciated that a single torsion spring configured and acting upon driving button 202 in a manner such as shown in FIG.
  • Driving button pawl 205 is adapted to engage, alternatively, driving tube retention slot 210, and driving tube retraction slot 225, of driving tube 120, in a manner similar to that shown for the driving button pawl 205 in FIG. 6.
  • driving button assembly 200 When an instrument such as driver assembly 300 (FIG. 3) has been loaded with anchors and is in the retracted position ready for insertion and subsequent use, driving button assembly 200 will be in the position shown in FIG. 52.
  • Driving button 202 is biased upwardly and in a counterclockwise direction about driving button pin 230 by one or more springs 235 so that driving button pin 230 is maintained engaged in rocker detent 238, and driving button pawl 205 is maintained engaged in driving tube retention slot 210, restraining driving tube 120 against spring bias acting upon driving tube 120 as more fully described above.
  • FIG. 53 depicts a "snapshot" of the positioning of driving button 202 relative to driving tube 120, after driving trigger 204 is depressed to release driving tube 120 by disengaging driving button pawl from driving tube retention slot.
  • driving trigger 204 causes clockwise rotation of driving button 202 about driving button pin 230, causing driving button pawl 205 to move upwardly and disengage from driving tube retention slot 210.
  • driving button pawl 205 releases driving tube 120, permitting it to move to the left (with respect to FIGS. 52-54) under urging of a spring as more fully described above.
  • FIG. 54 illustrates the positioning of driving button 202 relative to driving tube
  • driving button pawl 205 downward into driving tube retraction slot 225.
  • driving button pin boss 206 is urged downward, and correspondingly, driving button pin 230 is urged downward and out of rocker detent 238.
  • driving button 202 is in this position, shown in FIG. 54, the surgeon may then engage retraction member 207 to move driving button 202 to the right (with respect to FIG. 54), which correspondingly pulls driving tube 120 to the right by engagement of driving button pawl 205 with driving tube retraction slot 225. In this manner, the driver pins may be withdrawn from the now-installed anchors as more fully described below.
  • tube assembly 500 be curved and flexible to facilitate insertion into the patient. Accordingly, it may be desirable to manufacture certain components of tube assembly 500, including outer tube 510, medial actuator tube 280, distal rotation tube 580 and central tube 590, of materials that have suitable combined properties of biocompatibility, strength, stiffness, flexibility, elasticity and shape memory so as to provide a suitable balance of flexibility to facilitate insertion, with strength, rigidity and shape memory to facilitate manipulation to transfer longitudinal and rotational forces from the handle assembly 100 to the positioner assembly 400 and driver assembly 300.
  • suitable combined properties of biocompatibility, strength, stiffness, flexibility, elasticity and shape memory so as to provide a suitable balance of flexibility to facilitate insertion, with strength, rigidity and shape memory to facilitate manipulation to transfer longitudinal and rotational forces from the handle assembly 100 to the positioner assembly 400 and driver assembly 300.
  • nitinol known in the art for having such properties and used for endoscopic surgical instruments with similar requirements, is a suitable material.
  • other materials such as styrene or other polymers may be satisfactory for some components.
  • FIGS. 7-10 are views of the portion of tube assembly including a bridge assembly
  • the tube assembly and bridge assembly provide for isolation and transmission of rotational and longitudinal advancement and retraction force and movement from medial actuator tube 280 to a positioner assembly 400 and driver assembly 300.
  • medial actuator tube 280 may rotate, and longitudinally advance and retract within and with respect to outer tube 510, and is operatively connected to a positioner assembly 400 and a driver assembly 300, via a bridge assembly 600.
  • the bridge assembly 600 provides an operative connection of the medial actuator tube 280 so as to limit rotational movement, and transmit both limited rotational movement and longitudinal movement to distal rotation tube 580, and is adapted to allow an effective amount of rotational and longitudinal travel.
  • the bridge assembly 600 also provides an operative connection of the medial actuator tube 280 to central tube 590 so as to translate longitudinal movement to central tube 590.
  • medial actuator tube 280 has therein one or more bridge slots 640, and terminates within bridge assembly 600.
  • Bridge 610 has a hub 650 located within medial actuator tube 280, and one or more vanes 620, which protrude through bridge slots 640 in medial actuator tube 280, and longitudinally ride within one or more longitudinal bridge tracks 670 cut or formed within a bridge guide 660.
  • Bridge guide 660 is affixed within, and therefore integral with, outer tube 510.
  • vanes 620 and therefore bridge 610 may slide longitudinally within bridge guide 660 and outer tube 510, but are prevented from rotating.
  • the range of rotation of medial actuator tube 280 with respect to outer tube 510 is limited by the circumferential dimension of bridge slots 640 in medial actuator tube 280, and contact between the edges of bridge slots 640 and vanes 620.
  • the circumferential dimension of bridge slots 640 in actuator tube 280 may be varied according to the range of rotation that may be required to actuate the instrument.
  • Longitudinal bridge tracks 670 may be long enough to allow vanes 620 to slide longitudinally to the full range of longitudinal motion of medial rotation tube 280 that may be required to actuate the instrument.
  • Central tube 590 is affixed within bridge hub 650 and is integral therewith.
  • longitudinal motion is translated from medial actuator tube 280 to bridge vanes 620 and correspondingly bridge hub 650 via interaction between bridge slots 640 and bridge vanes 620.
  • longitudinal motion of bridge hub 650 is translated to central tube 590 because bridge hub 650 and central tube 590 are integral.
  • longitudinal motion of medial actuator tube 280 is translated to corresponding longitudinal motion of central tube 590.
  • rotational motion of medial actuator tube 280 is not translated to central tube 590.
  • central tube 590 is integral with bridge hub 650, and bridge hub 650 is prevented from rotating by the situation of bridge vanes 620 in bridge tracks 670, which are, in turn, integral with outer tube 510.
  • distal rotation tube 580 is affixed and integral with rotation spacer 288, which, in turn, is affixed and integral with the distal end of medial actuator tube 280.
  • rotation spacer 288 which, in turn, is affixed and integral with the distal end of medial actuator tube 280.
  • both longitudinal movement and rotation of medial actuator tube 280 are translated directly to corresponding longitudinal movement and rotation of distal rotation tube 580.
  • the range of rotational movement of medial actuator tube 280 is limited by the circumferential dimension of bridge slots 640, and thus, the range of rotational movement of distal rotation tube 580 is correspondingly limited.
  • Central tube 590 and distal rotation tube 580 are not affixed to one another and therefore distal rotation tube 580 may rotate with respect to central tube 590.
  • a funnel guide 606 may be affixed to the proximal end 608 of central tube 590, thereby providing for ease of feeding a guide wire upward through medial actuator tube 280 and into central tube 590.
  • Funnel guide 606 would not be affixed to medial actuator tube 280, and would be longitudinally and rotationally movable therein.
  • Distal rotation tube 580 and central tube 590 may be located within and supported through a bend in the tube assembly by rotation tube stabilizer 530, a proximal end of which appears at the right of FIGS. 8 and 10, and the entirety of which appears in FIG. 7.
  • proximal positioner mount 410 is affixed and integral with outer tube 510.
  • Distal positioner mount 440 is affixed and made integral with proximal positioner mount 410 by positioner mount connector members 412.
  • proximal positioner mount 410 and distal positioner mount 440 as made integral with outer tube 510, provide a stationary reference and mounting point for moving parts which will now be described.
  • central tube 590 may move longitudinally, but may not rotate, with respect to outer tube 510, and thus, may move longitudinally, but may not rotate, with respect to proximal positioner mount 410 and distal positioner mount 440.
  • Central tube 590 is affixed and integral at its distal end with distal end cap 390.
  • Distal driver mount 340 is affixed and integral with tabs 392 of distal end cap 390.
  • Proximal driver mount 310 is affixed and made integral with distal driver mount 340 via driver mount connector members 314.
  • distal end cap 390, distal positioner mount 340, driver mount connector members 314 and proximal driver mount 310 and central tube 590 are integral and move longitudinally as a unit with respect to outer tube 510, but may not rotate with respect to outer tube 510.
  • guidewire passage 114 leads through the center of handle assembly 100, through tube assembly 500 (and within medial actuator tube 280), through central tube 590, through positioner assembly 400 and driver assembly 300 and out distal end cap 390.
  • distal rotation tube 580 may rotate about central tube 590, in direct correspondence with rotation of medial actuator tube 280, within a range limited by the circumferential dimension of bridge slots 640 in medial actuator tube 280 (see FIGS. 9 and 10).
  • distal rotation tube 580 terminates and is integrally affixed to distal rotation tube collar 394 and gear tube 380.
  • rotation of distal rotation tube 580 causes directly corresponding rotation of gear tube 380.
  • gear tube 380 resides directly outside distal rotation tube 580 and extends proximally from distal driver mount 340 to proximal positioner mount 410.
  • clearance within rotation tube stabilizer 530 is present to permit proximal longitudinal movement of gear tube 380 thereinto.
  • Distal driver gear 360 and proximal driver gear 320 reside within driver assembly 300.
  • Distal driver gear 360 and proximal driver gear 320 are coaxial and integrally affixed to gear tube 380.
  • Arcuate slots 361 in distal driver gear 360 and arcuate slots 321 in proximal driver gear 320 accommodate passage of driver mount connector members 314 therethrough and also permit distal driver gear 360 and proximal driver gear 320 to rotate within a limit about the axis of gear tube 380 without interference from driver mount connector members 314.
  • distal positioner gear 460 and proximal positioner gear 420 reside within positioner assembly 400.
  • Distal positioner gear 460 and proximal positioner gear 420 are coaxial with, and longitudinally splined with, gear tube 380, such that distal positioner gear 460 and proximal positioner gear 420 are coupled with gear tube 380 with respect to rotation, but uncoupled with respect to relative longitudinal motion.
  • gear tube 380 may move longitudinally within positioner assembly 400, without effecting corresponding longitudinal movement of positioner assembly 400 or any parts thereof.
  • Arcuate slots 461 in distal driver gear 460 and arcuate slots 421 in proximal driver gear 420 accommodate passage of driver mount connector members 412 therethrough and also permit distal positioner gear 460 and proximal positioner gear 420 to rotate within a limit about the axis of gear tube 380 without interference from positioner mount connector members 412.
  • rotating medial actuator tube 280 correspondingly rotates distal rotation tube 580 and gear tube 380, and finally, distal driver gear 360, proximal driver gear 320, distal positioner gear 460 and proximal positioner gear 420. It also may be seen that longitudinal movement of central tube 590 with respect to outer tube 510 causes corresponding longitudinal movement of driver assembly 300 with respect to outer tube 510, but not longitudinal movement of positioner assembly 400 with respect to outer tube 510.
  • distal positioner pinions 462 are integral with and may rotate about pinion shafts (not shown) which are rotatably supported in distal positioner mount 440.
  • Distal positioner pinions 462 mesh with distal positioner gear 460, and may be driven thereby.
  • Distal positioner pinions 462 are also integral with distal positioner arms 470.
  • proximal positioner pinions 422 are integral with and may rotate about pinion shafts (not shown) which are rotatably supported in proximal positioner mount 410.
  • Proximal positioner pinions 422 mesh with proximal positioner gear 420, and may be driven thereby.
  • Proximal positioner pinions 422 are also integral with proximal positioner arms 430.
  • distal rotation tube 580 correspondingly rotates gear tube 380, and thus, distal and proximal positioner gears 460 and 420, which, in turn, drive distal and proximal positioner pinions 462 and 422, causing positioner arms 470 and 430 to either swing outwardly (toward a position shown in FIG. 14) or inwardly (toward a position shown in FIG. 13).
  • position shown in FIG. 13 is the position in which positioner assembly 400 would be placed during insertion into and retraction from a patient. It will be further appreciated that the position shown in FIG.
  • distal driver pinions 362 are integral with pinion shafts 316, which are rotatably supported in distal driver mount 340. Distal driver pinions 362 mesh with distal driver gear 360, and may be driven thereby. Distal driver pinions 362 are also integral with distal driver arms 370, which, in turn, are integral with driver pins 376. Similarly, proximal driver pinions 322 are integral with pinion shafts 316, which are rotatably supported in proximal driver mount 310. Proximal driver pinions 322 mesh with proximal driver gear 320, and may be driven thereby. Proximal driver pinions 322 are also integral with proximal driver arms 330, which, in turn, are integral with additional driver pins 376.
  • driver assembly 580 correspondingly rotates gear tube 380, and thus, distal and proximal driver gears 360 and 320, which, in turn, drive distal and proximal driver pinions 362 and 322, causing driver arms 370 and 330 to either swing outwardly (toward a position shown in FIG. 14) or inwardly (toward a position shown in FIG. 13).
  • the position shown in FIG. 13 is the position in which driver assembly 300 would be placed during insertion into and retraction from a patient.
  • the position shown in FIG. 14 is the position in which driver assembly 300 is ready for driving anchors, as will be further described below.
  • one or more driver pins 376 are affixed to driver arms 330 and 370. Each of the one or more driver pins 376 are adapted to retain anchors 700 having anchor heads 710, for example, by friction fit or other suitable means. Anchors 700 may have hollow bores within, opening at their heads 710, and extending substantially within their lengths, and driver pins 376 may extend within such bores substantially the entire lengths thereof, so that the distal ends of driver pins 376 drive anchors 700 at their forward ends, so as to prevent anchors 700 from buckling or veering off-direction as they might otherwise do if driven at their rearward ends proximate to heads 710. [00226] Still referring to FIGS.
  • longitudinal force and movement may be translated to the driver arms 370 to, alternately, drive anchors 700 into tissues, and withdraw driver pins 376 from anchors 700 after they are installed into tissues, as follows.
  • longitudinal force and movement is translated directly from medial actuator tube 280 to central tube 590 via bridge assembly 600.
  • central tube 590 is integral with distal end cap 390, distal driver mount 340, driver mount connector member 314 and proximal driver mount 310.
  • driver arms 330 and 370 are operably mounted within driver mounts 310 and 340, longitudinal force and movement exerted via medial actuator tube 280, translated to central tube 590, is also translated directly to longitudinal force and movement of driver arms 330 and 370 (and entire driver assembly 300), and thus to driver pins 376 and anchors 700.
  • gear tube 380 will be moved longitudinally in correspondence with longitudinal movement of central tube 590 and driver assembly 300.
  • gear tube 380 is permitted to longitudinally move relative to and through positioner assembly 400 by means of longitudinal splines coupling gear tube 380 with proximal and distal positioner gears 420 and 460, without effecting corresponding longitudinal movement thereto.
  • proximal longitudinal movement should be provided and translated to driver arms 330 and 370 and driver pins 376 by the mechanism described above so as to carry and drive anchors 700 past positioner assembly 400 and into the target tissues.
  • the advancement/retraction longitudinal travel distance of the driver assembly 300 can be generally greater than the length of the anchors 700 in order to move the anchors past the positioner and fully seat the anchors into the target tissues.
  • the position of the anchors when installed in the tissues may be substantially parallel with the longitudinal axis of the driver assembly 300, but the position of the anchors may also be at an angle therewith.
  • the anchors may enter the target tissues substantially perpendicular with them, as they are held by positioner assembly 400.
  • various integral components of the positioner and driver assemblies described above may be formed, molded or machined as a unitary, continuous structure.
  • driver arms 330 and 370 may be unitary and continuous with driver pins 376, rather than be assembled pieces.
  • a surgeon may use the embodiment just described in a retrograde direction in the following manner.
  • the driver assembly 300 may be loaded with one or more anchors 700, as may be required, prior to use.
  • the instrument may then be inserted into the urethra and advanced in a retrograde direction until the distal end of the instrument 10 is through the urethra 5 (FIG. 31), through the bladder opening 4, and the driver assembly 300 and positioner assembly 400 are inside the bladder lumen 8.
  • instrument 10 may be initially actuated by rotating knob 110 to open the positioner and driver assemblies to the initial deployment position as shown in FIG. 32 (see also FIG. 14). The entire instrument may then be retracted by pulling handle 100 in a proximal direction downwardly through the urethra 5, bringing the opened positioner assembly into contact with the bladder wall 2 surrounding the bladder opening 4, and urging bladder wall 2 surrounding bladder opening 4 into contact with pelvic floor 7 surrounding urethra opening 6, with the respective openings 4 and 6 aligned, as shown in FIG. 33. Once in position, the instrument may then be prepared for further actuation by cocking the handle mechanism by depressing knob 110 as described above.
  • driving button 202 which will actuate the mechanism in handle assembly 100 previously described so as to pull driver assembly 300 in a proximal direction with respect to positioner assembly 400, driving anchors 700 into and through the bladder wall 2 and into the underlying pelvic floor 7, in positions surrounding the aligned openings 4 and 6, to positions shown in FIG. 34.
  • driving button 202 the surgeon may then desire to further actuate the handle assembly 100 to further seat anchors 700 into the tissues.
  • the surgeon may push driver assembly 300 in a distal direction, withdrawing driver pins 376 from the installed anchors 700, to the position shown in FIG. 35.
  • knob 110 may be rotated again to re-close driver assembly 300 and positioner assembly 400 to the position shown in FIG. 36.
  • the instrument 10 can then be withdrawn back out of the urethra 5.
  • a guide wire 80 may be inserted through the instrument (via a guide wire passage) and into the bladder lumen, and left behind for use described below after withdrawal of the instrument, see FIGS. 36 and 37.
  • guide wire 80 may then be used to guide a balloon catheter system 90 into the bladder lumen 8.
  • a balloon catheter system 90 wherein a balloon 94 is expanded to hold the catheter in place. Drainage holes 92 allow urine to drain from the bladder 1 through a catheter tube 96 into a urine collection bag 98.
  • the actuator knob 110 is depressed first to cock the actuator. Then the actuator knob is rotated causing a concurrent rotation of the distal rotation tube, which thereby opens the positioner and driver arms, and the anchors, to a distance of approximately 2-8 mm out and parallel with the longitudinal axis of the driver assembly.
  • positioner and driver assemblies may have alternate configurations providing an instrument adapted to for use in a retrograde manner as described above, or in an antegrade manner.
  • the positioner assembly may have a variety of alternative configurations including but not limited to embodiments described herein (and thus including, without limitation, shuttlecock assembly 800 with positioner petals 830 (FIGS. 17-21), umbrella assembly 900 with reverse positioner petals 930 (FIGS. 22-27), positioner assembly 1440 with positioner arms 1441 (FIGS. 56-64; 70, 71, 77, 78), or positioner 2017 (FIGS. 122-126), 2090 (FIGS. 110-118), 2122 (FIGS. 95, 96, 103-109) and 2168 (FIGS.
  • the positioner assembly may comprise and make use of any number of alternately extendable and retractable projections, petals, arms, claws, or other grasping or catching members for catching and gaming control of bladder wall 2 surrounding bladder opening 4.
  • the positioner assembly may have at least one member operably connected to a longitudinal member of the instrument and alternately transversely extendable from and retractable toward the longitudinal axis thereof in response to input by a surgeon at a proximal end of the instrument.
  • driver assembly 300 when opened and drawn downwardly until the distal ends of anchors 700 contact and possibly puncture bladder wall 2 surrounding bladder opening 4, can be sufficient for use hi capturing bladder wall 2 and drawing it downward into contact with, and securing it to, pelvic floor 7, with bladder opening 4 and urethra opening 6 aligned, without the need for positioner assembly 400 as shown, in some circumstances.
  • driver assembly 300 with anchors 700 may serve a dual function as a positioner and as an anchor driver assembly.
  • FIGS. 17-21 illustrate another embodiment of a method and apparatus of the invention.
  • a "shuttlecock” assembly 800 is provided.
  • the term “shuttlecock” is only used for convenient reference to the present embodiment described, because as depicted in the drawings it bears some resemblances to a shuttlecock. The term is not, however, intended to connote any limitations, concerning appearance or otherwise.
  • Those skilled in the art will appreciate that an instrument incorporating the features and functions described may or may not bear .resemblances to a shuttlecock.
  • Affixed at the distal end of central tube 590 is distal end cap 390.
  • Central tube 590 may be located within positioner petal retainer actuator tube 810, and positioner petal retainer actuator tube 810 may be located within driver pin actuator tube 820, and it can be appreciated from FIGS. 17 and 18 that the three tubes 590, 810 and 820 may be substantially coaxial. Tubes 590, 810 and 820 can also be longitudinally movable with respect to each other.
  • Driver pins 376 may be affixed at one end to the distal end of driver pin actuator tube 820.
  • Driver pins 376 may be made of spring wire or other suitable material having shape memory, and may include shorter lengths affixed to the distal end of driver pin actuator tube 820, bends 377, and greater lengths which receive detachable hollow anchors 700.
  • anchors 700 Prior to use of the instrument, anchors 700 may be loaded onto driver pins 376, and may be releasably held thereon by friction fit or any other suitable means.
  • the greater lengths of driver pins 376 may be held in a retracted position lying substantially along tube 820 as shown.
  • assembly 800 is in the opened position shown in FIG.
  • Anchors 700 may have hollow bores within, opening at their heads 710, and extending substantially within their lengths, and driver pins 376 may extend within such bores substantially the entire lengths thereof, so that the distal ends of driver pins 376 may apply driving force proximate to the forward ends of anchors 700, so as to prevent anchors 700 from buckling or veering off-direction as they might otherwise do if driven at their rearward ends proximate to heads 710.
  • Each of positioner petals 830 may be affixed at one end to distal end cap 390.
  • Positioner petals 830 may be made of a spring metal or other suitable material having shape memory, biased so as to spring outwardly to the opened position shown in FIG. 19 when unrestrained, or may simply ride passively on top of driver pins 376 and anchors 700, being flexibly affixed or hinged to distal end cap 390.
  • positioner petals 830 lie in a retracted position as shown, to the outside of driver pins 376 and anchors 700.
  • the tips 835 of positioner petals 830 have been moved outwardly to an opened position shown, wherein the angle formed by the lengths of positioner petals 830 and the axis of tubes 590, 810 and 820 maybe approximately 15 degrees.
  • positioner petals 830, and driver pins 376 and anchors 700 may be retained against the urging of the spring bias in driver pins 376, by positioner petal retainer 860.
  • positioner petal retainer 860 is connected to and made integral with positioner petal retainer actuator tube 810 by positioner petal retainer braces 862.
  • positioner petal retainer actuator tube 810 is longitudinally movable with respect to central tube 590 and driver pin actuator tube 820.
  • driver pins 376 and positioner petals 830 are allowed to move to their opened positions when positioner petal retainer 860 is moved upwardly toward distal end cap 390 (see also FIG. 29). Because positioner petal retainer 860 is integral with positioner petal retainer actuator tube 810 via positioner petal retainer braces 862, pushing positioner petal retainer actuator tube 810 toward distal end cap 390, while holding central tube 590 and driver pin actuator tube 820 stationary, moves positioner petal retainer 860 toward distal end cap 390, releasing and allowing positioner petals 830 and driver pins 376 and anchors 700 to open to the position shown in FIG. 19 (see also FIGS. 28, 29). It can be understood from FIG. 18 that the positioning of positioner petal retainer braces 862 between the separate positioner petals 830 permits this relative motion.
  • the entire shuttlecock assembly 800 including the central tube 590, positioner petal retainer actuator tube 810 and driver pin actuator tube 820, are carried by the outer tube 510 and centered therein by the outer tube end collar 805. It will be understood by those skilled in the art that tubes 590, 810, 820 and 510 may be held stationary and/or selectively longitudinally moved with respect to each other by any suitable proximal actuating mechanism.
  • shuttlecock assembly 800 (in a retracted position such as shown in FIG. 17) is inserted into the patient's urethra, and guided up through the urethra 5, through bladder opening 4, and into the bladder lumen 8, to a fully inserted position whereby shuttlecock assembly 800 may be opened within the bladder as will be hereinafter described.
  • positioner petals 830 and driver pins 376 with anchors 700 are opened by pushing positioner petal retainer actuator tube 810 toward distal end cap 390 while holding central tube 590 and driver pin actuator tube 820 stationary.
  • Positioner petal retainer 860 being integral with positioner petal retainer actuator tube 810 via positioner petal retainer braces 862, is thus moved toward distal end cap 390, which in turn allows positioner petals 830 and driver pins 376 with anchors 700 to spring outwardly into the opened position as shown in FIG. 19.
  • the entire assembly 800 now in the opened position within the patient's bladder, is then pulled toward the urethra opening 6 by withdrawing tubes 590, 810, 820 and 510, together, back down through the urethra.
  • This brings positioner petal tips 835 into contact with the inside of the bladder wall 2 at positions about bladder opening 4, and urges bladder wall 2 surrounding bladder opening 4 toward pelvic floor 7 surrounding urethra opening 6, bringing these tissues into contact with openings 4 and 6 aligned.
  • the next step is to drive anchors 700, by retracting driver pin actuator tube 820 while holding the remaining tubes 590 and 810 stationary.
  • Retracting driver pin actuator tube 820 causes affixed driver pins 376 to drive anchors 700 into and through bladder wall 2, as shown in FIG. 20, and then into pelvic floor 7, as shown in FIG. 21.
  • barbs 730 on anchors 700 cause anchors 700 to lodge in pelvic floor 7, and that heads 710 on anchors 700 act to retain bladder wall 2 in a position in contact with pelvic floor 7, such that bladder opening 4 is held in communication with urethra opening 6.
  • a guide wire may be inserted through the instrument (via a guide wire passage) and into the bladder lumen, and left behind for use described above after withdrawal of the instrument, see FIGS. 37 and 38.
  • Positioner petal retainer 860 being integral with positioner petal retainer actuator tube 810 via positioner petal retainer braces 862, is thus moved in a proximal direction to a position away from distal end cap 390, which in turn urges positioner petals 830 and driver pins 376 inwardly into the retracted position (but now without anchors 700) as shown in FIG. 17. In a retracted position, the entire assembly 800 may then be withdrawn downwardly through the urethra and out of the patient.
  • shuttlecock assembly described above may be in alternate configurations providing an instrument adapted for use in a retrograde manner as described above, or an antegrade manner.
  • the mechanism comprising the positioner petals and performing the bladder positioning function thereof may have a variety of alternative configurations including but not limited to embodiments described herein (and thus including, without limitation, the positioner assembly 400 described above (FIGS. 11, 13-14), umbrella assembly 900 with reverse positioner petals 930 (FIGS. 22-27), positioner assembly 1440 with positioner arms 1441 (FIGS. 56-64; 70, 71, 77, 78), or positioner 2017 (FIGS. 122-126), 2090 (FIGS. 110-118), 2122 (FIGS. 95, 96, 103-109) and 2168 (FIGS.
  • a transversely retractable and extendible device useful for, referring to FIG. 2, insertion in a retracted position in a retrograde direction through the urethra 5 and into bladder opening 4, extending or expanding within bladder lumen 8, catching in bladder opening 4 and manipulating to urge bladder wall 2 surrounding bladder opening 4 into contact with pelvic floor 7 surrounding urethra opening 6 with the respective openings aligned; or alternatively, insertion in a retracted position in an antegrade direction through an incision in the abdomen and an upper surface of the bladder 1, extending or expanding within bladder lumen 8, catching in bladder opening 4 and manipulating to urge bladder wall 2 surrounding bladder opening 4 into contact with pelvic floor 7 surrounding urethra opening 6 with the respective openings aligned.
  • the positioner assembly may comprise and make use of any number of alternately extendable and retractable projections, petals, arms, claws, or other grasping or catching members for catching and gaining control of bladder wall 2 surrounding bladder opening 4.
  • the positioner assembly may have at least one member operably connected to a longitudinal member of the instrument and alternately transversely extendable from and retractable toward the longitudinal axis thereof in response to input by a surgeon at a proximal end of the instrument.
  • anchor driver pins 376 and anchors 700 when opened within the bladder lumen and drawn downwardly until the distal ends of anchors 700 contact and possibly puncture bladder wall 2 surrounding bladder opening 4, can be sufficient for use in capturing bladder wall 2 and drawing it downward into contact with, and securing it to, pelvic floor 7, with bladder opening 4 and urethra opening 6 aligned, without the need for positioner petals 830 as shown, in some circumstances.
  • driver pins 376 with anchors 700 may serve a dual function as a positioner and as an anchor driver assembly.
  • FIGS. 22-27 illustrate another embodiment of the method and apparatus of the invention.
  • an "umbrella" assembly 900 is provided.
  • the term “umbrella” is only used for convenient reference to the present embodiment described, because as depicted in the drawings it bears some resemblances to an umbrella.
  • the term “umbrella” is not, however, intended to connote any limitations, concerning appearance or otherwise. Those skilled in the art will appreciate that an instrument incorporating the features and functions described may or may not bear resemblances to an umbrella.
  • Affixed at the distal end of central tube 590 is distal end cap 390, and central tube 590 and distal end cap 390 are integral.
  • Central tube 590 may be located within driver pin spreader tube 893, and driver pin spreader tube 893 is located within reverse positioner petal tube 935, and it can be appreciated from FIG. 22 that the three tubes 590, 893 and 935 maybe substantially coaxial. Tubes 590, 893 and 935 can be also longitudinally movable with respect to each other.
  • Driver pins 376 having bases 395 are affixed to end cap 390.
  • Driver pins 376 may be made of spring wire or other suitable material having shape memory, and include lengths and free ends that receive detachable hollow anchors 700.
  • hollow anchors 700 Prior to use of the instrument, hollow anchors 700 may be loaded onto driver pins 376, and releasably held thereon by friction fit or any other suitable means.
  • the greater lengths of driver pins 376 may be held in a retracted position substantially parallel with the axis of tubes 590, 893 and 935, by spring bias or shape memory in driver pins 376.
  • assembly 900 is in the fully opened position shown in FIG.
  • Anchors 700 may have hollow bores within, opening at their heads 710, and extending substantially within their lengths, and driver pins 376 may extend within such bores substantially the entire lengths thereof, so that the distal ends of driver pins 376 may apply driving force proximate to the forward ends of anchors 700, so as to prevent anchors 700 from buckling or veering off- direction as they might otherwise do if driven at their rearward ends proximate to heads 710.
  • driver pins 376 with anchors 700 are moved from the retracted position to the opened position by movement of driver pin spreader 890 toward distal end cap 390.
  • Driver pin spreader is hollow and integral with driver pin spreader tube 893, and may move longitudinally with respect to central tube 590 and reverse positioner petal tube 935.
  • angled upper spreader face 891 of driver pin spreader 890 urges anchors 700 and correspondingly, driver pins 376, radially outwardly to the opened position shown in FIG. 25.
  • reverse positioner petals 930 are integral with reverse positioner petal tube 935.
  • Reverse positioner petals 930 are made of spring metal or other suitable material having shape memory, and are biased to assume the opened position shown in FIG. 24.
  • pushing reverse positioner petal tube 935 toward distal end cap 390 while holding the other tubes 590, 893 and 510 stationary pushes positioner petals 930 out of outer tube 510 through outer tube end collar 805 and allows them to open to their biased positions shown in FIGS. 24 and 25.
  • the entire umbrella assembly 900 including the central tube 590, driver pin spreader tube 893 and reverse positioner petal tube 935, are carried by the outer tube 510 and centered therein by the outer tube end collar 805. It will be understood by those skilled in the mechanical design arts that tubes 590, 893, 935 and 510 maybe held stationary or selectively longitudinally moved with respect to each other by any suitable proximal actuating mechanism.
  • umbrella assembly 900 (in retracted position as shown in FIG. 22) is inserted into the patient's urethra, and guided up through the urethra 5, and into bladder lumen 8 through bladder opening 4, to a fully inserted position whereby umbrella assembly 900 may be opened within the bladder lumen as will be hereinafter described.
  • reverse positioner petals 930 are extended and opened by pushing reverse positioner petal tube 935 toward distal end cap 390 while holding central tube 590 and driver pin spreader tube 893 stationary.
  • driver pins 376 with anchors 700 are opened by pushing driver pin spreader tube 893 toward distal end cap 390 while holding central tube 590 and reverse positioner petal tube 935 stationary.
  • assembly 900 is brought into the fully opened position shown in FIG. 25.
  • the entire assembly 900 now in the fully opened position within bladder lumen 8, is then pulled toward urethra opening 6 by withdrawing all tubes 590, 893, 935 and 510, together, back down through the urethra.
  • the next step is to drive anchors 700, by pulling central tube 590 while holding the remaining tubes 893 and 935 stationary.
  • Pulling central tube 590 causes driver pins 376 to drive anchors 700 into and through bladder wall 20, and then into pelvic floor 7, as shown in FIG. 26.
  • barbs 730 on anchors 700 cause anchors 700 to lodge in pelvic floor 7, and that heads 710 on anchors 700 act to retain bladder wall 20 in a position in contact with pelvic floor 7, such that bladder opening 4 is held in communication with urethra opening 6.
  • a guide wire may be inserted through the instrument (via a guide wire passage) and into the bladder lumen, and left behind for use described above after withdrawal of the instrument, see FIGS. 37 and 38.
  • the positioner assembly may be in alternate configurations providing an applier adapted to for use in a retrograde manner as describe above, or an antegrade manner.
  • the mechanism comprising the positioner petals and performing the bladder positioning function thereof may have a variety of alternative configurations including but not limited to embodiments described herein (and thus including, without limitation, the positioner assembly 400 (FIGS. 11, 13, 14) or shuttlecock assembly 800 with positioner petals 830 (FIGS. 17-21) described above, positioner assembly 1440 with positioner arms 1441 (FIGS. 56-64; 70, 71, 77, 78), or positioner 2017 (FIGS. 122-126), 2090 (FIGS. 110-118), 2122 (FIGS. 95, 96, 103-109) and 2168 (FIGS.
  • a transversely retractable and extendible device useful for, referring to FIG. 2, insertion in a retracted position in a retrograde direction through the urethra 5 and into bladder opening 4, extending or expanding within bladder lumen 8, catching in bladder opening 4 and manipulating to urge bladder wall 2 surrounding bladder opening 4 into contact with pelvic floor 7 surrounding urethra opening 6 with the respective openings aligned; or alternatively, insertion in a retracted position in an antegrade direction through an incision in the abdomen and an upper surface of the bladder 1, extending or expanding within bladder lumen 8, catching in bladder opening 4 and manipulating to urge bladder wall 2 surrounding bladder opening 4 into contact with pelvic floor 7 surrounding urethra opening 6 with the respective openings aligned.
  • the positioner assembly may comprise and make use of any number of alternately extendable and retractable projections, petals, arms, claws, or other grasping or catching members for catching and gaining control of bladder wall 2 surrounding bladder opening 4.
  • the positioner assembly may have at least one member operably connected to a longitudinal member of the instrument and alternately transversely extendable from and retractable toward the longitudinal axis thereof in response to input by a surgeon at a proximal end of the instrument.
  • anchor driver pins 376 and anchors 700 when opened within the bladder lumen and drawn downwardly until the distal ends of anchors 700 contact and possibly puncture bladder wall 2 surrounding bladder opening 4, can be sufficient for use in capturing bladder wall 2 and drawing it downward into contact with, and securing it to, pelvic floor 7, with bladder opening 4 and urethra opening 6 aligned, without the need for reverse positioner petals 930 as shown, in some circumstances.
  • driver pins 376 with anchors 700 may serve a dual function as a positioner and as an anchor driver assembly.
  • FIGS. 55-64 depict another embodiment of a method and instrument in accordance with the present invention (shown in an antegrade configuration), the instrument having a handle assembly 1100, a straight tube assembly 1200, a curved tube assembly 1300, and an end effector assembly 1400.
  • instrument 1000 may be endo-scopically inserted into the abdominal cavity of a patient to effect an anastomosis between the urethra and bladder of a patient, thereby re-establishing the fluid connection between bladder 1 and the urethra 5.
  • FIG. 55-64 depict another embodiment of a method and instrument in accordance with the present invention (shown in an antegrade configuration), the instrument having a handle assembly 1100, a straight tube assembly 1200, a curved tube assembly 1300, and an end effector assembly 1400.
  • instrument 1000 may be endo-scopically inserted into the abdominal cavity of a patient to effect an anastomosis between the urethra and bladder of a patient, thereby re-establishing the
  • curved tube assembly 1300 and end effector assembly 1400 after insertion into the bladder lumen 8 of a patient through an opening in the abdomen and upper surface of the bladder (not shown).
  • the openings may be made, and abdominal insertion of the instrument may be accomplished by, for example, inserting a cannula with a trocar (not shown) into the abdomen and guiding it to and through an upper surface of the bladder in a generally antegrade direction, withdrawing the trocar, and inserting the instrument through the cannula and into the bladder lumen.
  • Curved tube assembly 1300 may be flexible and may be provided with a bias at a bend angle (from about approximately 55 degrees to about approximately 90 degrees may be suitable) to provide curvature that may be desirable for inserting end effector assembly 1400 into the urethra 5 and actuating the instrument in an antegrade procedure.
  • the bend angle of curved tube assembly 1300 may vary depending upon the particular needs of the procedure or surgeon utility.
  • FIG. 57 depicts end effector assembly 1400 with opened positioner arms 1441 inside the bladder lumen 8. Following the insertion of balloon assembly 1410 into bladder opening 4, distal positioner tube 1445 has been moved downwardly and distally, causing positioner arms 1441 to open to positions transverse to the longitudinal axis of end effector assembly 1400. Positioner arms 1441 are adapted to be effective for use in catching and urging bladder wall 2 surrounding bladder opening 4 toward pelvic floor 7 surrounding urethra opening 6.
  • FIG. 58 depicts the end effector assembly with anchor driver assembly 1460 opened inside the bladder lumen.
  • anchor closing collar 1330 is moved upwardly with respect to distal anchor driver tube 1450, the anchor pivot arms 1461 are unsheathed, allowing them to swing outwardly, under spring bias, to the position shown in FIG. 58, bringing anchors 700 into a position reading for driving.
  • FIG. 58 further illustrates positioning of the distal balloon assembly 1410 in the urethra opening 6. Locating the urethra opening 6 with end 1413 and inserting end 1413 into the urethra opening 6 ensures that when the positioner arms 1441 contact and urge the bladder wall 2 toward the pelvic floor 7, the urethra opening 6 and the bladder opening 4 will be substantially aligned.
  • FIG. 59 illustrates the positioning of end effector assembly 1400, bladder wall 2, and pelvic floor 7 after instrument 1000 has been urged downward, thus causing positioner arms 1441 to urge bladder wall 2 downward into contact with pelvic floor 7, which may be accomplished by pushing the entire instrument toward the pelvic floor.
  • bladder wall 2 surrounding bladder opening 4 is urged into contact with pelvic floor 7 surrounding urethra opening 6
  • balloon assembly 1410 is urged into urethra opening 6
  • FIG. 60 illustrates the instrument after anchors 700 of anchor driver assembly
  • the anchors 700 may be driven through the bladder wall into the pelvic floor by moving distal anchor driver tube 1450 in a distal direction (toward the distal end of the instrument), which correspondingly moves the anchor pivot arms 1461, anchor driver pin bases 1462, anchor driver pins (concealed within anchors 700 as shown), and thus anchors 700.
  • Driving anchors 700 through bladder wall 2 and into pelvic floor 7 positions the distal portion of balloon assembly 1410 within the urethra 5 to insure that anchors 700 are installed such that the bladder opening 4 and the urethra opening 6 remain substantially aligned.
  • FIG. 61 illustrates the instrument after withdrawal of anchor driver pins 1463 from the installed anchors 700 that are now lodged in the pelvic floor 7 to secure the bladder wall 2 to the pelvic floor 7.
  • Anchors 700 may be provided with barbs or other suitable structures adapted to lodge anchors 700 in tissues. As such, when anchor driver assembly 1460 is withdrawn by remotely pulling distal anchor driver tube 1450 while holding distal positioner tube 1445 substantially stationary, anchors 700 remain lodged in the tissue. Prior to use of the instrument, anchors 700 have been pre-loaded and may be releaseably held on the anchor driver pins 1463 by a friction fit or any other suitable means which will allow release when anchors 700 are lodged in tissues and anchor driver pins 1463 are withdrawn therefrom.
  • FIG. 62 illustrates the end effector assembly 1400 after it has been partially retracted so as to situate the proximal portion of the balloon assembly 1410 within the bladder lumen 8.
  • harness 1430 is unfolded and exposed. Harness 1430 may be integral with harness collar 1433 and may be affixed to anchors 700 at the anchor heads 710 with an anchoring loop, that may consist of suture material, running through both the anchor head 710 and the harness 1430.
  • harness 1430 becomes unfolded as the harness collar 1433 is moved upward. End effector assembly 1400 maybe retracted until harness 1430 resists retraction as a result of the attachment of harness 1430 to the anchor heads 710.
  • FIG. 63 illustrates the instrument after the positioner arms 1441 of the positioner assembly 1440 have been closed by retracting the positioner tube 1445 away from the pelvic floor 7, and after the anchor pivot arms 1461 have been closed by moving anchor closing collar 1330 towards the pelvic floor while holding catheter tube 1420 and distal anchor driver tube 1450 substantially stationary.
  • the steps of closing the positioner arms 1441 and closing the anchor pivot arms 1461 may be accomplished at any suitable time or sequence during the procedure.
  • FIG. 64 illustrates the anchor driver assembly 1460 and the positioner assembly
  • catheter tube 1420 may be a catheter that is left in place until anastomosis is complete, to enable drainage of urine during recovery and healing.
  • FIG. 65 illustrates balloon 1411 of balloon assembly 1410 after it has been inflated by pumping gas or fluid through an inflation lumen 1423 in catheter tube 1420 (see FIGS. 67, 68).
  • Balloon 1411 may be inflated until it is restrained by harness straps 1432, which then press balloon 1411 against the tissue surrounding bladder opening 4 so as to apply sufficient pressure to maintain contact between bladder wall 2 surrounding bladder opening 4 and pelvic floor 7 surrounding urethra opening 6, to effect knitting of the respective tissues and thus effect anastomosis.
  • urine from the patient's bladder may be drained through drainage holes 1421 that are in communication with a urine drainage lumen 1422 in catheter tube 1420 (see FIGS. 67, 68). Drainage holes 1421 may be positioned, for example, distally on the catheter tube 1420, or in any other suitable location. Suitable gas or fluid pressure within balloon 1411 may be maintained until the anastomosis is complete, by monitoring and adjusting the pressure within balloon 1411 through inflation lumen 1423.
  • ribs 1415 or other bumps, nodules, projections, or other features on the underside of balloon 1411, which may be effective to reduce the loss of blood flow to tissue in contact with balloon 1411.
  • These features may be solid or of uniform wall thickness.
  • balloon 1411 may be designed with features that effect the shape that it assumes upon inflation, and thus, effect the shape and area of the lower surface of balloon 1411 that contacts the bladder wall 2 upon inflation.
  • balloon 1411 may be designed and manufactured so as to have walls that are thicker on an upper portion and thinner on a lower portion, so that the lower portion of balloon 1411 is predisposed to expand downwardly and outwardly between the harness straps, and thereby present a larger surface area to contact the bladder wall 2.
  • balloon 1411 may be designed with features that cause it to assume a specific advantageous shape upon inflation.
  • Balloon assembly 1410, harness 1430, and catheter tube 1420 may removed from the patient by removing the harness anchoring loop 1435 attachment from the anchor heads 710 and harness straps 1432.
  • harness straps 1432 may be affixed to the anchor heads 710 by one or more harness anchoring loops 1435 that pass through holes located in both the harness straps 1432 and the anchor heads 710.
  • free ends of harness anchoring loops 1435 may extend through catheter tube 1420 to its proximal end.
  • the balloon assembly 1410 may be removed by pulling harness loop plug 1485 attached to one free end of each of harness anchoring loops 1435 and pulling the harness loop plug 1485 until the harness anchoring loops 1435 are completely removed from the instrument. Removing the harness anchoring loops 1435 from anchor heads 710 and harness straps 1432 disassociates the anchors 700 from the harness 1430 allowing the balloon assembly 1410 to be retracted.
  • FIG. 67 illustrates anchoring loop passages 1436 where, in one embodiment of the present invention, harness anchoring loops 1435 may pass through the anchoring loop passage 1436 into the anchoring loop lumens 1424 of catheter tube 1420 (FIG. 68). Harness anchoring loops 1435 may comprise suture material.
  • FIGS. 67 and 68 illustrate an embodiment of a method and configuration of an instrument adapted to enable inflation of balloon 1411 of balloon assembly 1410 in accordance with the present invention.
  • Catheter tube 1420 may include an inflation lumen 1423 that extends distally through the balloon assembly body 1412.
  • An inflation port 1414 provides a passageway between inflation lumen 1423 and the balloon cavity to enable inflation, deflation and balloon pressure regulation. Gas or fluid pressure, provided and regulated through inflation lumen 1423 may pass through inflation port 1414 to adjust and regulate the pressure within the balloon 1411 as may be desired to affect the pressure the balloon exerts on the tissues.
  • balloon 1411 may be expanded until restricted by harness straps 1432 of harness 1430.
  • Balloon 1411 may be constructed from an elastomeric material that fully encircles the balloon assembly body 1412. The proximal and distal portions of balloon 1411 may be glued or otherwise adhered to the balloon assembly body 1512 by any suitable means.
  • FIG. 68 illustrates an embodiment of a catheter tube 1420 in accordance with the present invention having a urine drainage lumen 1422, at least one anchoring loop lumen 1424, and an inflation lumen 1423. It will be apparent to one of ordinary skill in the art that various types of lumens are within the scope of the present invention and that the lumens or catheter cross sections described may be maintained within a single catheter or housed separately depending on the needs of the user.
  • Catheter tube 1420 may be any suitable diameter.
  • FIG. 69 illustrates an embodiment of the proximal end of a catheter tube 1420 as may be connected to a urine collection bag 1500.
  • Gas or fluid may be delivered through backflow stop valve 1483 located in the collection bag (as shown) and/or in the catheter. This may be accomplished by, for example, applying sufficient positive pressure to open backflow stop valve 1490, or by inserting a needle through the valve to apply pressure.
  • a catheter cap 1480 is provided, connected to urine collection bag 1500 via urine tube 1482.
  • Urine tube 1482 may be provided with a urine backflow stop valve 1483 to prevent urine backflow.
  • Catheter cap 1480 may be removably attached to catheter tube 1420 by, for example, threads 1481.
  • FIGS. 66-69 illustrate a way in which one or more harness anchoring loops 1435 may be routed and contained within an instrument, and within a tube such as, for example, catheter tube 1420.
  • a tube such as, for example, catheter tube 1420.
  • Catheter tube 1420 may be constructed from any material that is substantially biocompatible or suitable for use within the human body such as, for example, latex, other suitable polymers, nitinol, or combinations thereof.
  • catheter tube 1420 may be located within distal positioner tube 1445 and positioner assembly 1440.
  • the distal end of positioner assembly 1440 may abut harness collar 1433 of harness 1430.
  • Positioner arms 1441 of the positioner assembly 1440 are opened when the distal positioner tube 1445 is driven in a distal direction with respect to catheter tube 1420, compressing positioner assembly 1440 longitudinally against harness collar 1433.
  • Distal positioner tube 1445 may be coupled with the positioner assembly 1440 by, for example, a pin or other suitable attachment mechanism.
  • distal positioner tube 1445 may be located within distal anchor driver tube 1450.
  • the distal anchor driver tube 1450 may be moved to drive the anchor driver assembly 1460 distally (and thus, in use, downward towards the pelvic floor), so as to drive the anchors 700 through the bladder wall 2 and into the pelvic floor 7.
  • Distal anchor driver tube 1450 is coupled with anchor pivot arm yoke 1467 of anchor driver assembly 1460.
  • Anchor pivot arm yoke 1467 may be coupled with the anchor pivot arms 1461 by, for example, pins, or any other suitable means, and biased to swing outwardly by anchor pivot arm springs 1466 or other suitable biasing means.
  • the anchor pivot arms 1461 may be hingeably coupled with an anchor driver pin base 1462 with an affixed anchor driver pin 1463. Pins, or any other suitable attachment means permitting swinging movement, may be used to couple the anchor driver pin base 1462 to the anchor pivot arm 1461, and anchor pivot arm 1461 and driver pin base 1462 may have suitable cooperating shapes that limit the range of relative swinging movement between them to a suitable angle as may be appreciated from FIG. 59.
  • Anchor pivot arm springs 1466 may be included to bias anchor pivot arms 1461 toward an open position shown in FIG. 59.
  • Anchor driver assembly 1460 may be brought to a closed position (shown in FIG. 63), with anchor pivot arms 1461 lying substantially alongside distal positioner tube 1445, by moving anchor closing tube 1220 distally, which correspondingly pushes ribbed flex tube 1325 and anchor closing collar 1330 distally, with respect to distal anchor driver tube 1450, causing anchor closing collar 1330 to contact anchor pivot arms 1461, urge them to a closed position, and then sheath and restrain them. This motion is reversed in order to permit anchor pivot arms 1461 to open.
  • Distal anchor driver tube 1450 may be substantially coaxially located within curved spine tube 1305.
  • Curved spine tube 1305 functions as a portion of a skeleton, on, in or about which the other components reside and move. It may be desirable for purposes of manipulability and use of the instrument that curved spine tube 1305 be substantially rigid, or somewhat flexible, and it may be formed of nitinol, or any other material having the desired properties.
  • curved spine tube 1305 may be located within flex tube 1325.
  • Flex tube 1325 may be constructed from any suitable material such as, for example, a substantially biocompatible polymer having sufficient flexibility to permit the longitudinal movement of flex tube 1325 over and with respect to curved spine tube 1305.
  • Flex tube 1325 may be provided with ribs, as shown, or other suitable features that impart or increase flexibility.
  • Flex tube 1325 may be affixed at its proximal end to anchor closing tube 1220 via flex tube coupling 1225, and affixed at its distal end to anchor closing collar 1330, by a pin or other suitable attachment means.
  • Anchor closing collar 1330 may be adapted to contact, urge closing of, and sheath and restrain anchor pivot arms 1461.
  • anchor pivot arms 1461 and thus anchor driver assembly 1460 may be placed in a closed position by moving anchor closing tube 1220 distally, and placed in an open position by moving anchor closing tube 1220 proximally, with respect to distal anchor driver tube 1450.
  • FIG. 71 is a partial cross-sectional view, taken through the central axis of the distal end of the instrument shown in FIG. 55, illustrating particular exemplary components of the anchor and positioner assemblies of the instrument and the manner in which they may be connected to actuating tubes.
  • Distal positioner tube 1445 is the innermost tube shown in FIG. 71, and terminates at positioner proximal collar 1442, with which it may be made integral by suitable means.
  • Positioner arms 1441 are hingeably affixed to positioner proximal collar 1442 at their proximal ends, and to positioner distal collar 1443 at their distal ends. It will be understood from examination of FIGS. 64 and 70 that catheter tube 1420, not shown in FIG.
  • distal positioner tube 1445 may be located inside distal positioner tube 1445, positioner distal collar 1442, and positioner proximal collar 1443, when the instrument is completely assembled.
  • harness collar 1433 is located on catheter tube 1420 adjacent to positioner distal collar 1443, when the instrument is completely assembled.
  • distal longitudinal movement of distal positioner tube 1445, with respect to and toward harness collar 1433 causes longitudinal compression of positioner assembly 1440 against harness collar 1433, which in turn causes positioner arms 1441 to open outwardly from and transversely to the longitudinal axis of the assembly as shown partially in FIG. 71, toward fully opened positions that may be seen in FIGS. 58-62.
  • positioner assembly 1440 in this embodiment may be seen in more detail in FIG. 78. It can be seen that longitudinal compression of positioner assembly 1440 causes positioner arms 1441 to extend outwardly as enabled by then- shapes and hinges 1444 between proximal and distal segments of positioner arms 1441. As shown, positioner assembly 1440 may include positioner proximal collar 1442, positioner arms 1441, and positioner distal collar 1443, may be a single unitary part formed of a substantially biocompatible and flexible polymeric material suitable to allow integral hinges 1444 to flex as shown when opening of bladder assembly 1440 is required, and to return to an unflexed position when closing of the positioner assembly 1440 is required.
  • positioner assembly 1440 in an open position, positioner assembly 1440 is adapted to be useful for catching at bladder opening 4 and urging bladder wall 2 thereabout downwardly into contact with pelvic floor 7.
  • Positioner assembly 1440 may comprise the embodiment shown or any other suitable mechanism that transversely extends one or more members that will catch in bladder opening 4 and be useful for urging the bladder wall downwardly into contact with the pelvic floor, in response to force and movement translated from input from the surgeon at the proximal portion of the instrument, and then retracts or closes such members in response to force and movement translated from input from the surgeon, when it is desired that the mechanism be withdrawn.
  • distal anchor driver tube 1450 may be affixed to, and integral with, anchor pivot arm yoke 1467.
  • Anchor pivot arms 1461 may be attached to pivot arm yoke 1467 by pins as shown or other suitable means, and biased to swing outwardly by springs 1466.
  • the angle through which anchor pivot arms 1461 may swing outwardly may be restricted by suitably cooperating shapes of pivot arm yoke 1467 and anchor pivot arms 1461.
  • Anchor driver pin bases 1462 may be pivotably attached to anchor pivot arms 1461 by pins as shown or other suitable means. The angle through which anchor driver pin bases
  • Anchor driver pins 1463 are affixed to pin bases 1462 and may be integral therewith.
  • Anchors 700 may be hollow so as to fit onto anchor driver pins 1463 and be releasably held thereon by friction fit or any other suitable releasable means.
  • Anchors 700 may have hollow bores within, opening at their heads, and extending substantially within their lengths, and driver pins 1463 may extend within such bores substantially the entire lengths thereof, so that the distal ends of driver pins
  • distal anchor driver tube 1450 may be flexible.
  • Distal anchor driver tube 1450 may be formed from any suitable material such as, for example, nitinol.
  • the anchor pivot arm springs may be for example, leaf springs, or any other suitable biasing device for biasing anchor driver assembly 1460 in an open position when unsheathed by anchor closing collar 1330.
  • anchor closing collar 1330 may be integrally affixed to the distal end of flex tube 1325.
  • the proximal end of flex tube 1325 may be integrally affixed to anchor closing tube 1220 via flex tube coupling 1225.
  • flex tube 1325 and integral anchor closing collar 1330 are not affixed to, and longitudinally movable with respect to, anchor pivot arm yoke 1467 and curved spine tube 1305.
  • anchor closing tube 1220 can cause corresponding distal longitudinal movement of anchor closing collar 1330, causing it to contact anchor pivot arms 1461, urge them to a closed position lying substantially alongside distal positioner tube 1445, and sheath and restrain them, in positions that may be seen, for example, in FIGS. 57 and 63.
  • moving anchor closing tube 1220 in a proximal direction with distal anchor driver tube 1450 held stationary, pulls anchor closing collar 1330 up and off anchor pivot arms 1461, allowing them to spring to an opened position shown, for example, in FIGS. 58 and 71.
  • Distal positioner tube 1445 and distal anchor driver tube 1450 are not affixed to one another, and therefore, may be longitudinally moved with respect to each other. This enables, for example, distal anchor driver tube 1450 to be moved distally while distal positioner tube is stationary, as would occur when anchors 700 are being driven through a bladder wall held stationary and in contact with a pelvic floor, by positioner assembly 1440.
  • FIG. 72 illustrates an exemplary configuration of a transition assembly that can be effective for translating relative force and movement of/between actuating members of a handle assembly 1100 to actuating members of an end effector assembly 1400, such as shown in FIG. 55.
  • Distal positioner tube 1445 is integral with positioner tube coupling 1206, which is in turn integral with straight positioner tube 1209, which is operatively connected with handle assembly 1100 as may be seen in FIGS. 55, 72 and 77.
  • longitudinal force and movement in straight positioner tube 1209 effected by the handle assembly is directly translated to distal positioner tube 1445 via positioner tube coupling 1206.
  • distal anchor driver tube 1450 is integral with anchor driver tube coupling 1207, which is in turn integral with straight anchor driver tube 1208, which is operatively connected to handle assembly 1100 as may be seen in FIGS. 55, 72 and 81.
  • straight anchor driver tube coupling 1207 effected by the handle assembly is directly translated to distal anchor driver tube 1450 via anchor driver tube coupling 1207.
  • curved spine tube 1305 is integral with spine 1201, which is in turn integral with handle housing 1101, and thus curved spine tube 1305, spine 1201 and handle housing 1101 form the instrument's relative stationary skeleton about which the actuating components move. As may be seen in FIGS.
  • spine tube 1201 may be integrally fitted and affixed to the handle housing by a spine retainer structure 1190 or other suitable structure integral with the handle housing.
  • flex tube 1325 is integral with flex tube coupling 1225 and anchor closing tube 1220, which is operatively connected to handle assembly 1100.
  • anchor closing tube 1220 effected by the handle assembly is directly translated to flex tube 1325 and thus anchor closing collar 1330.
  • FIG. 82 depicts an exemplary structure that may be incorporated into the instrument to provide a skeletal ("ground") structure about which other components move and are actuated, and which can provide a structure to support manipulation of the entire instrument as a unit.
  • curved spine tube 1305 is integral with spine 1201.
  • Spine 1201 is integral with handle housing 1101. These three components are, thus, substantially integral.
  • Housing 1101 may be molded or formed of a suitable rigid polymeric material.
  • spine 1201 and curved spine tube 1305 be substantially rigid, and have suitable stiffness and strength to support exertion of manipulative forces by the surgeon upon the instrument necessary to insert the instrument into a patient's abdomen, locate the bladder opening, urge the bladder into contact with the pelvic floor, and hold the bladder in contact with the pelvic floor during actuation of the instrument to drive anchors.
  • Spine 1201 and curved spine tube 1305 may be formed of stainless steel, nitinol or any other suitable material.
  • Curved spine tube 1305 may be affixed or joined to spine 1201 by any suitable means including but not limited to pins, welding, press fitting, cooperating threads, adhesives, etc.
  • Spine 1201 maybe affixed or joined to housing 1101 by any suitable means.
  • FIGS. 73 , 74, 79 and 80 illustrate an exemplary mechanism that may be incorporated into a handle assembly, by which an anchor closing tube 1220 may be alternately, selectively, longitudinally moved in proximal or distal directions and held so as to alternatively, selectively, open or close an anchor assembly to alternate positions shown, for example, in FIGS. 57 and 58.
  • Anchor closing tube 1220 may be coupled with closing tube latching collar 1180 by pins as shown in FIG. 80 or any other suitable means so that the two components move together longitudinally as a unit.
  • Closing tube latch base 1179 may be integral with handle housing 1101, and thus may be part of the instrument' s skeleton.
  • Closing tube latching collar 1180 freely rides upon closing tube spindle 1183, which assures suitable alignment of closing tube latching collar with latch base 1179, and supports a proximal end of closing tube spring 1181.
  • Closing tube latching collar 1180 includes latch members 1182 adapted to interact with cooperating features of closing tube latch base 1179 so as to alternately, selectively, be pushable proximally and rotatable to latch and be longitudinally restrained within latch base 1179 in the position shown in FIG. 74, or rotatable to unlatch and be released from latch base 1179 to assume the position shown in FIG. 75.
  • closing tube latching collar 1180 When in a position released from latch base 1179, closing tube latching collar 1180 is biased toward a distal position by closing tube spring 1181.
  • Closing tube latching collar 1180 may be restrained from disassociating distally from closing tube spindle 2005/021755
  • anchor closing tube 1220 is biased in a distal position (thus, biasing anchor closing collar 1330 in a distal position holding anchor driver assembly 1460 in a closed position through exemplary mechanisms described above) by closing tube spring 1181.
  • closing tube latching collar 1180 may push closing tube latching collar 1180 proximally with respect to the handle housing until closing tube latching members 1182 engage with cooperating features of closing tube latch base 1179, and then turn closing tube latching collar 1180 to latch into closing tube latch base 1179. This pulls anchor closing tube 1220 proximally, pulling anchor closing collar 1330 proximally to release the anchor pivot arms into an opened position.
  • FIGS. 75-77 illustrate an exemplary mechanism that may be incorporated into the instrument to effect and translate force and movement to open and hold open a positioner assembly in accordance with the present invention.
  • Positioner lever 1110 is pivotably mounted on, and may pivot about, axle 1113 which is integral with housing 1101.
  • Positioner lever 1110 has a longer portion and a shorter portion; the shorter portion has thereon positioner lever teeth 1111.
  • Positioner tube actuator rack 1160 rides longitudinally between guides or a track integral with housing 1101, and is longitudinally movable proximally and distally.
  • Positioner tube actuator rack 1160 has teeth 1159 thereon.
  • Positioner lever 1110 and positioner tube actuator rack 1160 are situated such that positioner tube actuator rack teeth 1159 and positioner lever teeth 1111 are enmeshed.
  • positioner tube actuator rack 1160 may be coupled with straight positioner tube 1209 by cooperating rims or lips forming an annular collar or other suitable means, such that the two parts move longitudinally together as a unit, and straight positioner tube 1209 may be made integral with distal positioner tube 1445 via positioner tube coupling 1206 as previously described.
  • straight positioner tube 1209 may be made integral with distal positioner tube 1445 via positioner tube coupling 1206 as previously described.
  • distal longitudinal movement of distal positioner tube 1445 causes longitudinal compression of positioner assembly 1440, which causes positioner arms 1441 to open outwardly of the longitudinal axis, and vice versa.
  • Positioner tube spring 1161 in compression, biases positioner tube actuator rack 1160 toward a proximal position.
  • Driver/positioner locking lever 1170 is pivotably mounted on and pivots about pin 1176, which may be integral with housing 1101, and is biased by spring 1171, in compression, in a counterclockwise direction (with respect to FIG. 75).
  • Driver/positioner locking lever 1170 comprises a driver/positioner locking latch 1178.
  • a lower surface of driver/positioner locking latch 1178 rests upon and is urged against an upper surface of the proximal end 1177 of positioner tube actuator rack 1160.
  • positioner lever 1110 is pulled or squeezed in counterclockwise direction (with respect to FIG.
  • FIGS. 75, 76 and 81 illustrate an exemplary mechanism that may be incorporated into the instrument to effect and translate force and movement to drive an anchor assembly in accordance with the present invention.
  • Anchor driver lever 1120 is pivotably mounted on, and may pivot about, axle 1113 which is integral with housing 1101.
  • Anchor driver lever 1120 has a longer portion and a shorter portion; the shorter portion has thereon anchor driver lever teeth 1121.
  • Anchor driver intermediate rack 1122 rides longitudinally between guides or a track integral with housing 1101, and is longitudinally movable proximally and distally.
  • Anchor driver intermediate rack 1122 has proximal teeth 1127 and distal teeth
  • Anchor driver lever 1120 and anchor driver intermediate rack 1122 are situated such that anchor driver intermediate rack proximal teeth 1127 will engage anchor driver lever teeth 1121 when anchor driver lever 1120 is moved counterclockwise through a suitable angle (with respect to FIG. 75).
  • Small anchor driver pinion 1123 and large anchor driver pinion 1124 are integral, and rotate about a pin supported by bosses in housing 1101. Small anchor driver pinion 1123 and anchor driver intermediate rack are situated such that small anchor driver pinion 1123 is enmeshed with anchor driver intermediate rack distal teeth 1128.
  • Anchor driver rack 1125 rides longitudinally between guides or a track integral with positioner tube actuator rack 1160, and a length and a distal end of anchor driver rack 1125 may extend into and be supported within spine 1201 as may be seen in FIG. 75.
  • Anchor driver rack 1125 has anchor driver teeth
  • Anchor driver rack 1125 and anchor driver lever 1120 are situated such that anchor driver teeth 1129 are enmeshed with large anchor driver pinion 1124.
  • the distal end of anchor driver rack 1125 is affixed by any suitable means to straight anchor driver tube 1208.
  • anchor driver assembly 1460 distally.
  • this distal movement of anchor driver assembly 1460 drives anchors 700 into the tissues.
  • Positioner lever 1110 and anchor driver lever 1120 abut one another in side-by- side relationship, and both are mounted upon and pivot about axle 1113.
  • Positioner lever 1110 and anchor driver lever 1120 are formed so as to have cooperating features where they abut, such that counterclockwise movement of positioner lever 1110 effects corresponding counterclockwise movement of anchor driver lever 1120 (with respect to FIG. 75).
  • Driver lever spring 1126 in tension, is connected between a hook or other suitable attachment point in housing 1101 and an attachment point on the shorter portion of anchor driver lever 1120 as shown.
  • anchor driver lever 1120 is biased in a clockwise direction (with respect to FIG. 75).
  • anchor driver lever 1120 is prevented from being depressed prior to activation of anchor positioner lever 1110.
  • Driver lever locking hook 1172 is pivotably mounted on and may rotate about a pin supported in housing 1101 as shown, and is biased in a counterclockwise direction by spring 1171 in compression, such that it hooks over a pin 1169 transversely protruding from the shorter portion of anchor driver lever 1120 at the position shown, preventing driver lever 1120 from moving counterclockwise (the pin is not directly shown; it protrudes from the back side of the component with respect to FIG. 75).
  • locking hook release member 1112 engages locking hook 1172 and urges it in a clockwise direction (with respect to FIG. 75), which causes it to disengage from pin 1169, thereby releasing anchor driver lever 1120 so that it may move in a counterclockwise direction.
  • anchor driver rack 1125 (and thus, anchor driver assembly 1460) is locked in a proximal position, by engagement of locking latch 1178 of driver/positioner locking lever 1170, with driver rack notch 1173.
  • actuation of the instrument is begun by pulling and thereby rotating positioner lever 1110 counterclockwise, moving positioner tube actuator rack 1160 distally as previously described, a notch 1174 at the proximal end 1177 of positioner tube actuator rack 1160 moves beneath locking latch 1178 of driver/positioner locking lever 1170, and locking latch 1178 moves into notch 1174 by urging of spring 1171.
  • locking latch 1178 moves into notch 1174, it moves out of driver rack notch 1173, releasing driver rack 1125 so that it may be driven by pulling anchor driver lever 1120 as previously described.
  • positioner assembly 1440 when the instrument is assembled and made ready for use, positioner assembly 1440 is in a closed position, and anchor driver assembly 1460 is held closed by anchor closing collar 1330 and locked in a proximal position with respect to positioner assembly 1440, placing the instrument hi position to facilitate insertion into the patient.
  • actuation may be commenced by pulling positioner lever 1110 to the position in which it opens positioner assembly 1440 and is locked in such position by driver/positioner locking lever 1170 under urging of spring 1171.
  • driver/positioner locking lever 1170 locks positioner lever 1110, it simultaneously unlocks anchor driver rack 1125 by disengaging driver positioner locking latch 1178 from driver rack notch 1173, freeing anchor driver rack 1125 to be driven in a distal direction.
  • Anchor driver assembly 1460 may then be opened by pulling closing tube latching collar 1180 distally until it engages latch base 1179, and rotating latching collar 1180 to latch into latch base 1179.
  • Anchor driver rack may then be driven hi a distal direction (to drive anchors) by pulling anchor driver lever 1120.
  • anchor driver lever 1120 After anchors are driven, spring 1126 hi tension urges anchor driver lever 1120 to return, thus causing anchor driver rack 1125 and correspondingly anchor driver assembly 1460 to return to their original proximal positions (and pulling anchor driver pins out of anchors installed into tissues).
  • Anchor driver assembly 1460 may then be returned a closed position by rotating and disengaging closing tube latching collar 1180 from latch base 1179, which allows latching collar 1180 to return to its distal position urged by spring 1181, moving closing collar 1330 distally and causing it to close anchor driver assembly 1460.
  • positioner assembly 1440 may be closed by depressing driver/positioner locking lever 1170, which lifts driver/positioner locking latch 1178 from notch 1174 in the proximal end 1177 of positioner tube actuator rack 1160, allowing positioner tube actuator rack 1160 to return to a proximal position under urging of positioner tube spring 1161, closing positioner assembly 1440.
  • driver/positioner locking lever 1170 which lifts driver/positioner locking latch 1178 from notch 1174 in the proximal end 1177 of positioner tube actuator rack 1160, allowing positioner tube actuator rack 1160 to return to a proximal position under urging of positioner tube spring 1161, closing positioner assembly 1440.
  • the instrument is returned to a closed position ready for withdrawal from the patient.
  • catheter tube [00307] Referring to FIGS. 55, 64, 65 and 75, it may be appreciated that catheter tube
  • Anchor driver rack 1125 may be hollow, or may have a channel and "U"-shaped cross-section, and driver/positioner locking lever 1170 and handle housing 1101 may have suitable holes or other features, to accommodate passage of catheter tube 1420 therethrough.
  • catheter tube 1420 When the instrument is readied for use to install anchors, catheter tube 1420 may be releasably gripped at or within handle assembly 1110 by any suitable means so as to be held stationary with respect to handle housing 1101, placing it in tension with respect to positioner assembly 1440 when positioner assembly 1440 is longitudinally compressed against harness collar 1433 to cause positioner assembly 1440 to open. After the instrument has been actuated to drive anchors and returned a closed position, catheter tube 1420 may then be released to permit withdrawal of all components except for catheter tube 1420 and balloon assembly 1410, for use in completing the anastomosis procedure as described above.
  • Levers 1110, 1120 and 1170 and positioner tube actuator rack 1160 may be formed of any material having suitable properties of strength, stiffness and formability or moldability, including polymeric materials.
  • Small anchor driver pinion 1123, large anchor driver pinion 1124, anchor driver intermediate rack 1122, anchor driver rack 1125, positioner tube actuator rack 1160 and driver lever locking hook 1172 may be made of any material having suitable strength for small mechanical components, including steel or high- strength polymers.
  • the mechanism comprising the positioner assembly 1440 and performing the bladder positioning function thereof may have a variety of alternative configurations including but not limited to embodiments described herein (and thus including, without limitation, the positioner assembly 400, shuttlecock assembly 800 with positioner petals 830 (FIGS. 17-21), umbrella assembly 900 with reverse positioner petals 930 (FIGS. 22-27), described above, or positioner 2017 (FIGS. 122-126), 2090 (FIGS. 110- 118), 2122 (FIGS. 95, 96, 103-109) and 2168 (FIGS. 83, 84, 89-94) (all of which are described below)), providing a transversely retractable and extendible device useful for, referring to FIG.
  • the positioner assembly may comprise and make use of any number of alternately extendable and retractable projections, petals, arms, claws, or other grasping or catching members for catching and gaining control of bladder wall 2 surrounding bladder opening 4.
  • the positioner assembly may have at least one member operably connected to a longitudinal member of the instrument and alternately extendable transversely from and retractable toward the longitudinal axis thereof in response to input by a surgeon at a proximal end of the instrument.
  • anchor driver pins 1463 and anchors 700 when opened within the bladder lumen and pushed downwardly until the distal ends of anchors 700 contact and possibly puncture bladder wall 2 surrounding bladder opening 4, can be sufficient for use in capturing bladder wall 2 and pushing it downward into contact with, and securing it to, pelvic floor 7, with bladder opening 4 and urethra opening 6 aligned, without the need for positioner assembly 1400 as shown, in some circumstances.
  • anchor driver assembly 1460 with anchors 700 may serve a dual function as a positioner and as an anchor driver assembly.
  • FIG. 136 depicts another exemplary embodiment of an instrument 3000 of the present invention, adapted for use in effecting the anastomosis of the bladder and urethra tissues following a radical prostatectomy in accordance with a method of the present invention.
  • the instrument may comprise a handle assembly 3100, a tube assembly 3200 and an end effector assembly 3400.
  • End effector assembly 3400 is adapted to facilitate retrograde insertion into and through a patient's urethra 5 and into the bladder lumen 8 through bladder opening 4.
  • instrument 3000 can, alternatively, be designed and configured in an embodiment to be effective to perform steps substantially similar to those herein described via insertion from an antegrade direction, Le 1 , through incisions through the abdomen and an upper surface of the bladder (not shown), and downwardly through the bladder opening 4 and into urethra opening 6.
  • An example of such an embodiment is depicted and described in co-pending U.S. applications Ser. Nos. 60/639,836 and 60/582,302.
  • FIG. 135 is a longitudinal cross-sectional view of end effector assembly 3400 after insertion into and through the patient's urethra 5 and into the bladder opening 4.
  • end effector assembly 3400 may comprise distal end cap assembly 3410, balloon harness 3430, anchor driver assembly 3460, and positioner assembly 3440.
  • End effector assembly 3400 and the assemblies it comprises, just identified, may be operably connected to, and controlled by, handle assembly 3100 (shown in FIG. 136), via tube assembly 3200, which may comprise spine tube 3210, central rod or guide wire 3230, inner positioner tube 3240, outer positioner tube 3241, anchor driver closing tube 3260 and anchor driver tube 3261. These tubes and rod may be assembled so as to be substantially coaxial.
  • Central rod or guide wire 3230 may pass through the length of the instrument within anchor driver closing tube 3260, and may be affixed and made integral with end cap 3411 by any suitable means.
  • Anchor driver closing tube 3260 may be longitudinally movable with respect to central rod or guide wire 3230, and may be affixed and made integral with anchor closing collar 3464 by any suitable means.
  • Anchor driver closing tube 3260 may be located within anchor driver tube 3261, and may be longitudinally movable with respect thereto.
  • Anchor driver tube 3261 may be affixed and made integral with anchor pivot arm yoke 3467 by any suitable means.
  • Anchor driver tube 3261 may be located within inner positioner tube 3240, and may be longitudinally movable with respect thereto, mner positioner tube 3240 may be affixed and made integral with positioner distal collar 3443 by any suitable means.
  • Inner positioner tube 3240 may be located within outer positioner tube 3241, and may be longitudinally movable with respect thereto.
  • Outer positioner tube 3241 may be affixed and made integral with positioner proximal collar 3442 and spine tube 3210 by any suitable means.
  • Tubes 3210, 3241, 3240, 3261 and 3260, and rod 3230 maybe made of nitinol or any other material having suitable combined properties of strength, stiffness and biocompatibility as may be desirable for purposes of the present embodiment.
  • the instrument also includes balloon harness 3430, which is attached at a distal end to end cap assembly 3410, and releasably attached at proximal ends to anchors 700.
  • Anchors 700 are releasably held by the instrument as will be described below.
  • end effector assembly 3400 may be inserted into and through the patient's urethra in a retrograde direction and into the bladder opening 4, and then into the bladder lumen as may be appreciated from FIG. 136.
  • FIG. 136 depicts the end effector assembly after insertion completely into the bladder lumen 8, after anchor driver assembly 3460 and positioner assembly 3440 have been opened for use, and after positioner assembly 3440 has been brought into contact with bladder wall 2 and used to urge the bladder wall 2 surrounding the bladder opening into contact with the pelvic floor 7.
  • positioner assembly 3440 To open the positioner assembly 3440, the surgeon holds spine tube 3210 and outer positioner tube 3241 stationary, and withdraws inner positioner tube 3240 proximally, using handle assembly 3100 (shown in FIG. 136). This draws positioner distal collar 3443 toward positioner proximal collar 3442.
  • Positioner arms 3441 have upper segments hinged by any suitable means to positioner distal collar 3443 and lower segments hinged by any suitable means to positioner proximal collar 3442, and also hinged together by any suitable means.
  • drawing positioner distal collar 3443 toward positioner proximal collar 3442 in the manner described above causes positioner arms 3441 to fold outwardly and transversely with respect to the longitudinal axis of the instrument, as may be appreciated from a comparison of FIGS. 135 and 136.
  • positioner arms 3441 of positioner assembly 3440 are opened, the surgeon may manipulate the instrument to cause positioner arms 3441 to urge bladder wall 2 downward into contact with pelvic floor 7, as may be appreciated from FIG. 136. It will also be appreciated from FIG. 136 that the respective openings in the bladder and the urethra are aligned.
  • anchor driver assembly 3460 may open the anchor driver assembly 3460 by holding anchor driver closing tube 3260 stationary while withdrawing anchor driver tube 3261 proximally, or, alternatively, by holding anchor driver tube 3261 stationary while advancing anchor driver closing tube 3260 distally, again, via use of handle assembly 3100 (shown in FIG. 136).
  • anchor pivot arm yoke 3467 is integral with anchor driver tube 3261
  • anchor closing collar 3464 is integral with anchor driver closing tube 3260.
  • Anchor pivot arms 3461 are pivotably connected to anchor pivot arm yoke 3467, and are biased to swing outwardly by anchor pivot arm springs 3466. As shown in FIG.
  • anchor closing collar 3464 sheaths and restrains anchor pivot arms 3461 in a retracted position.
  • anchor pivot arm yoke 3467 is urged proximally down and away from stationary anchor closing collar 3464, or alternatively, when anchor closing collar 3464 is urged distally up and away from stationary anchor pivot arm yoke 3467, anchor pivot arms 3461 are released from anchor closing collar 3464 and allowed to swing outwardly under urging of springs 3466, as may be appreciated from a comparison of FIGS. 135 and 136.
  • anchor pivot arms 3461 swing outwardly as described above may be limited by, for example, suitable cooperating shapes of pivot arms 3461 and anchor pivot arm yoke 3467, or, alternatively for example, by cooperating shapes and limiting the relative longitudinal travel between anchor closing collar 3464 and anchor pivot arms 3461.
  • anchor driver pin bases 3462 are pivotably connected to anchor pivot arms 3461, and may be biased to swing inwardly with respect thereto by any suitable means, to assume a substantially downward orientation as shown in FIG. 136.
  • Anchor driver pins 3463 may be affixed and made integral with anchor driver pin bases 3462.
  • Anchors 700 may be loaded onto anchor driver pins 3463 and held thereon by friction fit or any other suitable releasable means.
  • Anchors 700 may include harness hooks 760 (as may be seen in greater detail in FIG. 141). As may be appreciated from a comparison of FIGS. 135 and 136, anchors 700 maybe moved outwardly and into a position ready for driving by opening anchor driver assembly 3460 as described above.
  • anchors 700 may be driven downwardly through the bladder wall 2 and into tissues of the pelvic floor 7 by withdrawing anchor driver tube 3261, which pulls anchor pivot arm yoke 3467, and correspondingly, anchor pivot arms 3461, anchor driver pin bases 3462, anchor driver pins 3463, and anchors 700, downward.
  • Anchor pivot arms 3461 and anchor driver pin bases 3462 may be situated on the instrument so that when driven downward, anchors 700 do not interfere with, and are driven down between, positioner arms 3441.
  • Anchors 700 may comprise barbs or other suitable lodging structures (not shown) on their shafts, so as to cause them to be lodged in and resist withdrawal from the tissues of the pelvic floor.
  • the surgeon may retract the driver pins 3463 from the now-installed anchors 700, by advancing anchor driver tube 3261 distally, which will move anchor pivot arm yoke 3467, and correspondingly, anchor pivot arms 3461, anchor driver pin bases 3462, and anchor driver pins 3463, distally upward. If anchors 700 are lodged or otherwise remain in the tissues of the pelvic floor 7, anchor driver pins 3463 onto which anchors 700 are held by releasable means, will release from anchors 700, leaving anchors 700 installed and lodged in the tissues as shown in FIG. 138.
  • the surgeon may close the anchor driver assembly, and return it to its original position to facilitate withdrawal from the patient, by distally advancing anchor driver tube 3261 while holding anchor driver closing tube 3260 stationary.
  • the surgeon may proximally retract anchor driver closing tube 3260 while holding anchor driver tube 3261 stationary. Either sequence will bring anchor pivot arm yoke 3467, and correspondingly, anchor pivot arms 3461, within anchor closing collar 3464, causing anchor pivot arms 3461 to be moved upwardly and inwardly relative to anchor closing collar 3464 and be sheathed and restrained thereby, as depicted in FIG. 139.
  • the surgeon may retract positioner arms 3441 by distally advancing inner positioner tube 3240 while holding outer positioner tube 3241 and spine tube 3210 stationary. This moves positioner distal collar 3443 distally and away from positioner proximal collar 3442, drawing positioner arms 3441 inwardly to the position shown in FIG. 140.
  • Tails 3433 of harness 3430 may be held by anchors 700 by way of hooks 760 as shown or by any other suitable means.
  • Central rod 3230 can now serve as a guide wire as will be described below, and may also be used to withdraw the remaining portions of the instrument following completion of the procedure.
  • FIG. 146 shows end cap assembly 3410 and balloon harness 3430 in more detail.
  • End cap assembly 3410 may comprise drainage extension 3413 having thereon harness attachment neck 3415 and one or more drainage holes 3414. End cap assembly 3410 may also include snap-in collar 3412 and end cap 3411, which may be integrally formed or assembled. End cap 3411 may be connected or affixed to and made integral with central rod or guide wire 3230 by any suitable means.
  • Balloon harness 3430 may include attachment collar 3431, to fit around harness attachment neck 3415 and be held thereon by their respective cooperating shapes and dimensions.
  • Balloon harness 3430 may also includes tails 3433 having therein anchor hook holes 3432, through which anchor hooks 760 may pass, thus attaching balloon harness 3430 to anchors 700 (see, again, FIG. 141). Balloon harness 3430 may be made of any suitable biocompatible polymer having properties of flexibility but effectively limited elasticity so as to render it suitable for remaining held in position and serving the balloon restraining function that will be described below.
  • the next step in the exemplary method described herein is for the surgeon to insert balloon catheter assembly 3500 into the patient and into the balloon harness 3430 via central rod 3230, serving as a guide wire.
  • Central rod 3230 serving as a guide wire, may be provided with one or more markings along its length (not shown) that enable the surgeon to determine the distance that a balloon catheter assembly is inserted into the patient. By noting the length of the balloon catheter assembly and its position with respect to the one or more markings on central rod or guide wire 3230 after insertion, the surgeon can determine whether the catheter assembly has been inserted to the correct depth within the patient with respect to the harness and distal end cap assembly.
  • balloon catheter assembly 3500 may comprise catheter tube 3510, balloon 3520 attached thereto, and catheter end plug 3530.
  • Catheter tube 3510 may include inflation lumen 3511 and inflation port 3512.
  • Balloon 3520 may have proximal and distal portions attached in any substantially gas and/or fluid-tight manner at proximal and distal points on catheter tube 3510, and may be ring-shaped upon inflation or otherwise have a central passage through which catheter tube 3510 passes, as may be appreciated from FIG. 143.
  • Catheter end plug 3530 may comprise snap-in button 3531, one or more drainage holes 3414, and catheter tube insert 3534, with stop collar 3535.
  • balloon 3520 upon inflation, may expand outwardly between the straps of harness 3430, and be used to exert pressure on the bladder walls 2 surrounding the bladder opening in order to, both, press bladder walls 2 into contact with the tissues of pelvic floor 7, and seal off the bladder opening, pelvic floor and urethra from urine and other materials collecting in the bladder during recovery and healing.
  • urine and other materials collecting in the bladder may be drained into catheter tube 3510 via drainage holes 3414 and 3533, in distal end cap assembly 3410 and catheter end plug 3530, respectively.
  • catheter tube 3510 may be connected at a proximal end to a urine collection bag (not shown).
  • Suitable gas or fluid pressure within balloon 3520 may be maintained until anastomosis is complete, by monitoring and adjusting the pressure within balloon 3520 through inflation lumen 3511. About 1 to 6 p.s.i. pressure within the balloon may be suitable, and about 1.5 to 2.5 p.s.i. is preferred.
  • the possibility of pressure necrosis in the tissues beneath the balloon may be reduced by including, for example, ribs or other bumps, nodules, projections, or other features (not shown) on the underside of balloon 3520, which may be effective to reduce the loss of blood flow to tissue in contact with balloon 3520. These features may be solid or of uniform wall thickness.
  • balloon 3520 may be designed with features that effect the shape that it assumes upon inflation, and thus, effect the shape and area of the lower surface of balloon 3520 that contacts the bladder wall 2 upon inflation.
  • balloon 3520 may be designed and manufactured so as to have walls that are thicker on an upper portion and thinner on a lower portion, so that the lower portion of balloon 3520 is predisposed to expand downwardly and outwardly between the harness straps, and thereby present a larger surface area to contact the bladder wall 2.
  • balloon 3520 may be designed and manufactured so as to have walls that are thicker on a lower portion and thinner on an upper portion, so that the upper portion of balloon 3520 is predisposed to inflate first, within the bladder lumen, and thereby draw the remaining portion of the balloon up into the bladder lumen, and substantially out of the pelvic floor region, before the lower portion fully inflates.
  • balloon 3520 may be designed with features that cause it to assume other specific advantageous shapes upon inflation to, for example, fill a large portion of the space defined by the harness straps.
  • a two-way check valve may be installed along the inflation gas or fluid passage including inflation lumen 3511.
  • a two-way check valve may comprise a "duckbill" type valve or other valve that functions to permit gas or fluid to pass into inflation lumen 3511 but prevents gas or fluid from passing back out, in conjunction with a pressure release valve that functions to permit gas or fluid to pass out of the system if pressure within balloon 3520 and/or the fluid passage exceeds a desired maximum amount.
  • FIG. 144 depicts an alternative manner of attachment of balloon 3520 to the distal end of catheter tube 3510.
  • the sheet-like material forming the upper wall of balloon 3520 has been attached to the distal end of catheter tube 3510 in inverted orientation, which may serve to enhance sealing at the attachment point and improve the balloon's ability to sustain gas or fluid pressure when inflated.
  • the balloon may be deflated and the balloon catheter assembly 3500 withdrawn from the patient.
  • end cap assembly 3410 and harness 3430 maybe withdrawn from the patient by proximally withdrawing central rod or guide wire 3230 (shown in progress in FIG. 145). It can be seen in FIG.
  • central rod or guide wire 3230 may be attached to and made integral with end cap 3411 by any suitable means. When central rod or guide wire 3230 is made integral with end cap 3411, it is substantially integral with the other components of end cap assembly 3410 as described herein, and thus also with attachment collar 3431 of balloon harness 3430. As such, central rod or guide wire 3230 may be used for withdrawal of balloon harness 3430 following substantial completion of the anastomosis procedure.
  • the mechanism comprising the positioner assembly 3440 and performing the bladder positioning function thereof may have a variety of alternative configurations including but not limited to embodiments described herein (and thus including, without limitation, the positioner assembly 400, shuttlecock assembly 800 with positioner petals 830 (FIGS. 17-21), umbrella assembly 900 with reverse positioner petals 930 (FIGS. 22-27), described above, or positioner 2017 (FIGS. 122-126), 2090 (FIGS. 110- 118), 2122 (FIGS. 95, 96, 103-109) and 2168 (FIGS. 83, 84, 89-94) (all of which are described below)), providing a transversely retractable and extendible device useful for, referring to FIG.
  • the positioner assembly may comprise and make use of any number of alternately extendable and retractable projections, petals, arms, claws, or other grasping or catching members for catching and gaining control of bladder wall 2 surrounding bladder opening 4.
  • the positioner assembly may have at least one member operably connected to a longitudinal member of the instrument and alternately extendable transversely from and retractable toward the longitudinal axis thereof in response to input by a surgeon at a proximal end of the instrument.
  • anchor driver pins 3463 and anchors 700 when opened within the bladder lumen and pushed downwardly until the distal ends of anchors 700 contact and possibly puncture bladder wall 2 surrounding bladder opening 4, can be sufficient for use in capturing bladder wall 2 and pushing it downward into contact with, and securing it to, pelvic floor 7, with bladder opening 4 and urethra opening 6 aligned, without the need for positioner assembly 3440 as shown, in some circumstances.
  • anchor driver assembly 3460 with anchors 700 may serve a dual function as a positioner and as an anchor driver assembly.
  • FIG. 83 is a perspective view of another embodiment of an anastomotic instrument 2150 of the present invention, in its pre-deployment position
  • FIG. 84 is a longitudinal cross-sectional view of the distal end of the instrument, also shown in its pre-deployment position
  • the instrument may comprise anchor driver assembly 2151, which may include outer driver assembly tube 2152, having distal end 2154, anchor driver tube 2155 which distally terminates with anchor driver pins 2156, and inner driver assembly tube 2158 which distally terminates with anchor track collar 2159.
  • the described embodiment of the instrument may further comprise positioner tube 2167, positioner 2168 affixed to the distal end of positioner tube 2167, rod 2170 and rod cap 2171.
  • anchor driver assembly 2151 may be loaded with one or more anchors 700, each of which may comprise a forward member 750, shaft 720 and rearward member 710.
  • Anchor track collar 2159 and inner driver assembly tube 2158 may have in their outer surfaces one or more longitudinally-oriented anchor tracks 2160 which direct upwardly and radially outwardly, moving longitudinally, proximally to distally.
  • Outer driver assembly tube 2152 may have one or more anchor storage grooves 2153 on its inside surface, situated opposite anchor tracks
  • inner driver assembly tube 2158, with anchor track collar 2159, and outer driver assembly tube 2152, are made integral with respect to each other by any suitable means.
  • FIG. 87 is an enlarged view of the forward end of an anchor that may be used in the present embodiment.
  • Anchor 700 has forward member 750 which may have a sharp forward end 751, and has shaft 720 which connects with a rearward member 710 (not shown in FIG. 87).
  • Anchor 700 may be manufactured so as to be biased with shape memory to assume an "H" shape, with the forward and rearward members forming the vertical legs and the connecting member forming the horizontal connection of the "H", and may be made of a material having suitable properties of strength, flexibility, shape memory, non-reactivity with body tissues and fluids, and biocompatibility.
  • Anchor 700 may also be made of one or more dissolving bioabsorbable materials.
  • Anchor 700 may, alternatively, be manufactured in a variety of suitable shapes as depicted in FIGS. 40-51, and one of the embodiments of the instrument described herein suitably adapted for use with such anchors substantially as hereinafter described.
  • FIGS. 84 and 86 depict anchors 700 loaded into the instrument of the present embodiment, ready for deployment.
  • anchors 700 reside in the spaces defined by anchor tracks 2160 and anchor storage grooves 2153.
  • the spaces defined by the anchor tracks 2160 and anchor storage grooves 2153 restrain the anchors 700 while the anchors are loaded in the instrument, holding them such that forward lodging lodging members 750 and penetration limiting members 710 are positioned lying longitudinally alongside connecting members 720.
  • anchor driver pins 2156 when the instrument is ready for use, anchor driver pins 2156 also reside in anchor tracks 2160 with their distal ends behind the forward lodging lodging members 750 in a position ready for driving anchors 700 as will be hereinafter described.
  • Anchor driver pins 2156 are integral with a distal end of anchor driver tube 2155 (shown in FIG. 83). Anchor driver tube 2155 is longitudinally movable with respect to outer driver assembly tube 2152 and inner driver assembly tube 2158.
  • Anchor driver pins 2156 are formed from a suitable flexible, shape memory material such as nitinol, and are biased so as to be substantially straight in their natural positions.
  • the end of anchor driver pin 2156 may have a recess
  • the instrument may comprise one or more anchors, and the associated tracks, grooves and anchor driver pins described above, situated about the instrument in positions such that upon correct rotational orientation of the instrument, the anchors may be driven upwardly and radially outwardly into tissues in directions selected to avoid nerve and/or circulatory system bundles or other sensitive areas.
  • the instrument of the present embodiment also includes positioner tube 2167. Affixed at the distal end of positioner tube 2167 is positioner 2168, shown in its pre-deployment shape in FIGS. 83 and 84.
  • the pre- deployment shape of positioner 2168, shown in FIGS. 83 and 84, facilitates insertion of the instrument into the patient.
  • Positioner 2168 may be made of a suitable elastic and flexible polymeric material having shape memory, manufactured so as to be biased to assume a normally transversely-oriented shape such as, for example, that shown in FIG. 89, upon retraction of rod 2170. As shown in FIG.
  • positioner 2168 may have, about its perimeter, one or more drainage holes 2169 which can permit urine, fluids or clotted material to drain into positioner tube 2167 after the instrument has been deployed.
  • Positioner 2168 is alternately moved to its pre-deployment position shown in FIGS. 83 and 84, or allowed to return via shape memory to its normal (deployed) position shown in FIG. 89, by longitudinal movement of rod 2170, and correspondingly, end cap 2171, which is integrally affixed to rod 2170.
  • Positioner tube 2167 is longitudinally movable with respect to inner driver assembly tube 2158, and vice versa.
  • Outer driver assembly tube 2152, anchor driver tube 2155, inner driver assembly tube 2158, positioner tube 2167 and rod 2170 may be made of one or more materials having suitable combined properties of shape memory, flexibility, strength and stiffness that both enable the tubes and rod to flex during insertion into the patient's body and through the urethra as will be hereinafter described, but also will prevent them from collapsing, kinking, binding, or breaking during use.
  • the selected materials may also be substantially non-reactive with body fluids and tissues, and be substantially biocompatible.
  • the inventors have determined that nitinol, known in the art as suitable for a variety of surgical devices and tubes, is one example of a suitable material.
  • a hollow tube may be used in the instrument for positioner tube 2167 when a coaxial arrangement with rod 2170 is desirable, or when positioner tube 2167 is to serve as a catheter, such as will be further described below, but that a rod may be substituted for positioner tube 2167 and be used to provide substantially the same mechanical function, i.e., transmission of forces to actuate the positioner, and thus may be used when a catheter function, or a coaxial arrangement, and thus a tube, is not required.
  • a tube can serve the purpose of rod 2170.
  • the term "tube" where such element is operably affixed or connected with, or contacts, the positioner is intended to include and cover a rod, and vice versa.
  • the anastomotic instrument is inserted upwardly into and through the patient's urethra 5, through the bladder opening 4, and into the bladder 1.
  • the surgeon then retracts rod 2170 and correspondingly, end cap 2171, which allows positioner 2168 to assume its normal transversely-oriented shape via shape memory, as shown in FIG. 89.
  • the now-transverse orientation of positioner 2168 prevents it from being retracted without pulling bladder wall 2 surrounding bladder opening 4 with it.
  • anchor driver tube 2155 is moved longitudinally upwardly and distally, which correspondingly causes anchor driver pins 2156 to move upwardly and distally, inside anchor tracks 2160, and then upwardly and radially outwardly, driving forward lodging lodging members 750 of anchors 700 upwardly and radially outwardly, first into and through the tissues of the pelvic ' floor 7 surrounding the urethra opening 6, and then into and through the tissues of the bladder wall 2 surrounding the bladder opening 4, and into the bladder, as shown in FIG. 91.
  • forward lodging lodging members 750 are driven into the tissues, connecting members 720 trail behind forward lodging lodging members 750, into place in the tissues.
  • Anchor driver tube 2155 and correspondingly anchor driver pins 2156 are then retracted back into the instrument, releasing lodging members 750 of anchors 700.
  • lodging members 750 of anchors 700 are released by retraction of anchor driver pins 2156, they are no longer restrained from their normal biased positions, and lodging members 750 move under bias and contact with the bladder wall to a position substantially transverse to the axes of connecting members 720 as may be seen in FIG. 92, such that lodging members 750 prevent anchors 700 from retracting back through the holes in the tissues made by lodging members 750 during the driving step, and thus, serve to lodge the anchors in the tissues.
  • penetration limiting members 710 when penetration limiting members 710 are pulled out of the instrument, they are no longer restrained from their normal biased positions, and penetration limiting members 710 move under bias and contact with the urethra wall to a position substantially transverse to the axes of connecting members 720 as may be seen in FIG. 92, such that penetration limiting members 710 may not be pulled through the holes in the tissues made by lodging members 750 during the driving step, and thus serve to limit further penetration of anchors 700 into the tissues.
  • anchors 700 Upon completion of installation of anchors 700, as can be seen in FIG. 92, anchors 700 hold the tissues of bladder wall 2 surrounding bladder opening 4 in contact with the tissues of pelvic floor 7 surrounding urethra opening 6, with the bladder opening 4 and urethra opening 6 aligned.
  • the tissues of the bladder wall 2 and pelvic floor 7 may knit and heal together with the bladder opening and urethra opening aligned.
  • anchor driver tube 2155, and outer driver assembly tube 2152 may be retracted as a unit (as shown in progress in FIG. 92), down the urethra and out of the patient's body, leaving behind positioner tube 2167, positioner 2168 and rod 2170.
  • Remaining positioner 2168 and positioner tube 2167 may now be used to exert supplemental downward pressure on bladder walls 2 surrounding the bladder opening 4 so as to enhance contact and knitting between the tissues of bladder walls 2 surrounding the bladder opening 4, and the tissues of pelvic floor 7 surrounding the urethra opening 6.
  • positioner 2168 including drainage holes 2169, and positioner tube 2167, may now be used to seal off the junction between the bladder and urethra and drain urine and other fluids from the bladder during recovery and healing.
  • positioner tube 2167 would be connected to a urine collection bag (not shown) via intermediate tubing.
  • rod 2170 and correspondingly end cap 2171 are moved longitudinally upwardly and distally with respect to positioner tube 2167, thus urging positioner 2168 into its pre-deployment position as shown in FIGS. 83 and 84, and enabling retraction of these remaining parts of the instrument out of the bladder, down through the urethra, and out of the patient's body.
  • FIGS. 93 and 94 depict an alternative embodiment and alternative loaded anchor positions for the instrument of the present invention.
  • anchor driver pins 2156 include rear driver steps 2172, which function to drive penetration limiting members 710 of anchors 700 at the same time the distal ends of anchor driver pins drive forward lodging lodging members 750 of anchors 700.
  • the geometry of outer driver assembly tube 2152, anchor storage groove 2153 and/or anchor track 2160 are suitably modified accordingly.
  • anchors 700 may be loaded with forward lodging lodging members 750 and penetration limiting members 710 oriented in opposite directions as shown, which may serve to improve the positioning of rearward member 710 in the urethra after actuation of the anchor driver assembly and driving of the anchors.
  • FIG. 83, and FIG. 85 depict an example of a simple proximal end handle assembly 2200 which may be designed and configured to enable the surgeon to control and manipulate various embodiments of the instrument.
  • Handle assembly 2200 comprises rod 2201 having affixed knob 2202, fourth tube 2203, third tube 2204 with integral stop collar 2205, second tube 2207 with integral actuation collar 2209, and first tube 2210. Tubes 2210, 2207, 2204 and 2203, and rod 2201, maybe substantially coaxial.
  • Rod 2201 is longitudinally slidable with respect to fourth tube 2203.
  • Fourth tube 2203 is longitudinally slidable with respect to third tube 2204 and stop collar 2205, and vice versa.
  • First tube 2210 may be connected to third tube 2204 via connecting pins 2211, thus making first tube 2210 and third tube 2204 integral.
  • Second tube 2207 is coaxially located between first tube 2210 and third tube 2204, and is longitudinally slidable therewithin, to the limits defined by longitudinal slots 2208 in second tube 2207 about pins 2211.
  • handle assembly 2200 may be connected and made usable by the surgeon to manipulate and operate anastomotic instrument 2150 by connecting, or making integral, rod 2201 and rod 2170, fourth tube 2203 and positioner tube 2167, third tube 2204 and inner driver assembly tube 2158, second tube 2207 and anchor driver tube 2155, and first tube 2210 and outer driver assembly tube 2152.
  • second tube 2207 may be longitudinally slid with respect to the remaining parts of the assembly by the surgeon gripping tube actuation collar 2209, thus advancing or retracting anchor driver tube 2155 and correspondingly anchor driver pins 2156, thereby actuating anchor driver assembly 2151.
  • the entire anchor driver assembly 2151 may be retracted from the patient's body by the surgeon gripping and pulling first tube 2210, thus also retracting third tube 2204 via connecting pins 2211 and second tube 2207, and correspondingly, retracting outer anchor driver assembly tube 2152, inner driver assembly tube 2158, and anchor driver tube 2155. This can be accomplished while leaving behind fourth tube 2203 and rod 2201, and thus positioner tube 2167 and rod 2170, as described above.
  • the positioner need not be limited to the exemplary embodiment made of flexible and elastic polymeric shape memory material as described above, but that alternative designs for such positioner are possible, which cause the positioner to alternately assume a retracted position and a deployed position, the deployed position suitable for catching in the bladder opening and urging the bladder into contact with the pelvic floor, in response to forces exerted or transmitted by tubes or other members.
  • the positioner may comprise, for example, any of the positioner assemblies depicted in FIGS. 14, 19, 24 and 57, and described hereinabove.
  • the anchor driver assembly need not be limited to the exemplary three-tube assembly described herein, but that alternative designs for such an assembly are possible, which are effective to install one or more anchors into the tissues of the bladder and the urethra about the respective openings when they are brought together, in response to forces exerted or transmitted by tubes or other members.
  • the combination of tubes, positioner and driver assembly may be configured in an instrument adapted for a retrograde anastomosis procedure, as described above, or configured in an instrument adapted for an antegrade procedure, hi an antegrade procedure, instead of being inserted upwardly through the urethra and into the bladder opening proximate the site of excision of the prostate, the instrument is inserted downwardly through a small incision in the patient's abdomen, through a small incision on an upper surface of the patient's bladder, into the bladder, through the bladder opening, and into the urethra opening.
  • the small incisions in the abdomen and upper surface of the bladder may be made and held open for insertion of the instrument therethrough with a cannula and trocar assembly.
  • FIG. 95 is a perspective view of another embodiment of an anastomotic instrument 2100 of the present invention, in its pre-deployment position
  • FIG. 96 is a longitudinal cross-sectional view of the distal end of the instrument, also shown in its pre-deployment position
  • the instrument may comprise anchor driver assembly 2101, which may include outer driver assembly tube 2102, having distal end 2104, second anchor track collar 2105, anchor driver tube 2109 which distally terminates with anchor driver pins 2108, and inner driver assembly tube 2110 which distally terminates with first anchor track collar 2112.
  • the present embodiment may further comprise positioner tube 2121, positioner 2122 affixed to the distal end of positioner tube 2121, rod 2124 and rod cap 2125.
  • anchor driver assembly 2101 may be loaded with one or more anchor pairs, each pair comprising first anchor 700 with an attached length of suture 2117, and second anchor 701.
  • positioner tube 2121, inner driver assembly tube 2110 distally terminating in first anchor track collar 2112, second anchor track collar 2105, and outer driver assembly tube 2102 may be assembled such that they are substantially coaxial, with first anchor tracks 2111, second anchor tracks 2106 and anchor driver pins 2108 longitudinally aligned.
  • First anchor track collar 2112 may have in its outer surface one or more longitudinally-oriented first anchor tracks 2111 including suture clearance tracks 2113, which direct upwardly and radially outwardly, moving longitudinally, proximally to distally.
  • Second anchor track collar 2105 may have in its outer surface one or more longitudinally-oriented second anchor tracks 2106, which also direct upwardly and radially outwardly, moving longitudinally, proximally to distally. Second anchor track collar 2105 also has suture clearance tracks 2107 on its inside surface, situated opposite suture clearance tracks 2113 in first anchor track collar 2112, and one or more longitudinally-oriented suture storage grooves 2103 on its outer surface. Distal end 2104 of outer driver assembly tube 2102 may have on its outer surface one or more longitudinally-oriented suture storage grooves 2103, that align with and thereby form extensions of suture storage grooves 2103 on second anchor track collar 2105. When the instrument is assembled and ready for use, inner driver assembly tube 2110, with first anchor track collar 2112, second anchor track collar 2105, and outer driver assembly tube 2102, may be made integral with respect to each other by any suitable means.
  • FIGS. 99-101 are enlarged views of exemplary anchors that may be used in the present embodiment.
  • First anchor 700 may have barb 730 and suture holes 735. Suture holes 735 may be used to attach a length of trailing suture or other suitable connecting member to first anchor 700 in preparation for use.
  • Second anchor 701 may have barb 731 and suture notch 752. Suture notch 752 is shaped and sized so as to be effective to capture and bindingly hold a free end of suture or other suitable connecting member as will be hereinafter described.
  • Anchors 700 and 701 may be manufactured so as to be biased to assume the shapes shown in FIGS.
  • Anchors 700 and 701 may also be made of dissolving bioabsorbable materials, or may be made of suitably treated nitinol or surgical stainless steel.
  • FIGS. 96-98 depict first anchors 700 and second anchors 701 loaded into the present embodiment of an anastomotic instrument, ready for deployment.
  • first anchors 700 may reside in the spaces defined by first anchor tracks 2111 and the interior surface of second anchor track collar 2105.
  • second anchors 701 may reside in the spaces defined by second anchor tracks 2106 and the interior surface of outer driver assembly tube 2102.
  • the spaces defined by the anchor tracks 2111 and 2106 restrain the barbs 730 and 731 of anchors 700 and 701 while the anchors are loaded in the instrument.
  • Sutures 2117 or other suitable connecting members may be attached to the rear ends of first anchors 700 via suture holes 735 (shown in FIG. 99) and trail from the rear ends of first anchors 700, upwardly through suture clearance tracks 2107, radially out and over second anchor track collar 2105, and downwardly in suture storage grooves 2103, terminating with free ends.
  • Anchor driver pins 2108 reside in first anchor tracks 2111 with their distal ends behind anchors 700 in preparation for driving first anchors 700 as will be hereinafter described.
  • Anchor driver pins 2108 are integral with a distal end of anchor driver tube 2109 (shown in FIG. 95). Anchor driver tube 2109 is longitudinally movable with respect to outer driver assembly tube 2102 and inner driver assembly tube 2110.
  • Anchor driver pins 2108 are made of a suitable flexible, shape memory material such as nitinol, and are biased so as to have their distal ends spring radially outwardly upon repositioning in preparation for driving second anchors 701, as will be described below.
  • the instrument may comprise one or more pairs of anchors, each pair comprising a first anchor and a second anchor, and the associated tracks, grooves and anchor driver pins described above, situated radially about the instrument in positions such upon correct rotational orientation of the instrument, the anchors may be driven into tissues in directions selected to avoid nerve and/or circulatory system bundles or other sensitive areas.
  • the instrument of the present embodiment also may include positioner tube 2121.
  • positioner 2122 Affixed at the distal end of positioner tube 2121 is positioner 2122, shown in its pre-deployment shape in FIGS. 95 and 96.
  • the pre- deployment shape of positioner 2122 shown in FIGS. 95 and 96, can facilitate insertion of the instrument into the patient.
  • Positioner 2122 may be made of a suitable elastic and flexible polymeric material having shape memory, manufactured so as to be biased to assume a normally transversely-oriented shape as shown in FIG. 103, upon retraction of rod 2124. As shown in FIG.
  • positioner 2122 may have, about its perimeter, one or more drainage holes 2123 that can permit urine, fluids or clotted material to drain into positioner tube 2121 after the instrument has been deployed.
  • Positioner 2122 may be, alternately, moved to a pre-deployment position shown in FIGS. 95 and 96, or allowed to return via shape memory to a normal (deployed) position shown in FIG. 103, by longitudinal movement of rod 2124, and correspondingly, end cap 2125, which may be integrally affixed to rod 2124.
  • Positioner tube 2121 is longitudinally movable with respect to inner driver assembly tube 2110, and vice versa.
  • Outer driver assembly tube 2102, anchor driver tube 2109, inner driver assembly tube 2110, positioner tube 2121 and rod 2124 may be made of a material having suitable combined properties of shape memory, flexibility, strength and stiffness that both enable the tubes and rod to flex during insertion into the patient's body and through the urethra as will be described below, but also will prevent them from collapsing, kinking, binding, or breaking during use.
  • the selected material may also be substantially non-reactive with body fluids and tissues, and be substantially biocompatible, or be non-biocompatible with a biocompatible coating.
  • nitinol known in the art as suitable for a variety of surgical devices and tubes, is one example of a suitable material.
  • hollow tubes may be used in the instrument for positioner tube 2121 when a coaxial arrangement with rod 2124 is desirable, or when positioner tube 2121 is to serve as a catheter, such as will be further described below, but that a rod may be substituted for positioner tube 2121 and be used to provide substantially the same mechanical function, i.e., transmission of forces to actuate the positioner, and thus may be used when a catheter function, or a coaxial arrangement, and thus a tube, is not required.
  • a tube can serve the purpose of rod 2124.
  • the term "tube" where such element is operably affixed or connected with, or contacts, the positioner is intended to include and cover a rod, and vice versa.
  • the anastomotic instrument may be inserted upwardly into and through the patient's urethra 5, through the bladder opening 4, and into the bladder 1.
  • the surgeon then may retract rod 2124 and correspondingly, end cap 2125, which will permit positioner 2122 to assume its normal shape via shape memory, as shown in FIG. 103.
  • the now-transverse orientation of positioner 2122 will prevent it from being retracted without pulling bladder wall 2 surrounding bladder opening 4 with it.
  • surgeon may retract the entire instrument downwardly through the urethra, which will cause positioner 2122 to pull bladder walls 2 surrounding bladder opening 4 into contact with pelvic floor 7, with bladder opening 4 and urethra opening 6 aligned, to the position shown in FIG. 104.
  • anchor driver tube 2109 may be moved longitudinally distally, which correspondingly will cause anchor driver pins 2108 to move upwardly and distally inside first anchor tracks 2111, driving first anchors 700 radially outwardly into the surrounding tissues of bladder wall 2, as shown in FIG. 105.
  • anchors 700 are driven out of the instrument, they are no longer restrained from their normal biased shapes, and thus barbs 730 can spring away from anchors 700 as shown, enabling anchors 700 to lodge in the tissues.
  • the attached sutures 2117 will trail from the rear ends of anchors 700, back out of the tissues, with their free ends continuing to reside in suture storage grooves 2103, passing over the exits of second anchor tracks 2106.
  • anchor driver tube 2109 and correspondingly, anchor driver pins 2108 may be longitudinally retracted proximally.
  • anchor driver pins 2108 When the distal ends of anchor driver pins 2108 are retracted past the proximal end of second anchor track collar 2105, the shape-memory bias of anchor driver pins 2108 will cause their distal ends to move radially outwardly into position behind second anchors 701, into the position shown in FIG. 106, ready to drive second anchors 701 upwardly and outwardly through second anchor tracks 2106.
  • anchor driver tube 2109 and correspondingly anchor driver pins 2108 may again be pushed longitudinally distally, while will cause the distal ends of anchor driver pins 2108 move distally into and through second anchor tracks 2106, and drive second anchors 701 radially outwardly into the surrounding tissues of pelvic floor 7, as shown in FIG. 107.
  • suture notches 752 see FIG. 100
  • suture notches 752 will contact the trailing lengths of sutures 2117 passing over the exits of second anchor tracks 2106 (see FIG. 106), and capture and bindingly hold these trailing lengths as second anchors 701 are driven into the tissues, as shown in FIG. 107.
  • a suture 2117 (or other suitable connecting member) may be anchored into a position holding the tissues of bladder wall 2 surrounding bladder opening 4 in contact with the tissues of pelvic floor 7 surrounding urethra opening 6, with the bladder opening 4 and urethra opening 6 aligned.
  • the tissues of the bladder wall 2 and pelvic floor 7 may knit and heal together and the bladder opening and urethra opening aligned.
  • first anchor track collar 2112, anchor driver tube 2109, second anchor track collar 2105, and outer driver assembly tube 2102 may be retracted as a unit (as shown in progress in FIG. 108), down the urethra and out of the patient's body, leaving behind positioner tube 2121, positioner 2122 and rod 2124.
  • Remaining positioner 2122 and positioner tube 2121 may now be used to exert supplemental downward pressure on bladder walls 2 surrounding the bladder opening 4 so as to enhance contact and knitting between the tissues of bladder walls 2 surrounding the bladder opening 4, and the tissues of pelvic floor 7 surrounding the urethra opening 6.
  • positioner 2122 including drainage holes 2123, and positioner tube 2121, may now be used to seal off the junction between the bladder and urethra and drain urine, fluids and/or clotted material from the bladder during recovery and healing.
  • positioner tube 2121 would be connected to a urine collection bag (not shown) via intermediate tubing.
  • rod 2124 and correspondingly end cap 2125 may be moved longitudinally upwardly or distally with respect to positioner tube 2121, thus urging positioner 2122 into its pre- deployment position as shown in FIG. 109, and enabling retraction of these remaining parts of the instrument out of the bladder, down through the urethra, and out of the patient's body.
  • the positioner need not be limited to the embodiment made of flexible and elastic polymeric shape memory material as described herein, but that alternative designs for such positioner are possible, which can cause the positioner to alternately assume a retracted position and a deployed position, the deployed position suitable for catching in the bladder opening and urging the bladder into contact with the pelvic floor, in response to forces exerted or transmitted by tubes or other members.
  • the positioner may comprise, for example, any of the positioner assemblies depicted in FIGS. 14, 19, 24 and 57, and described hereinabove.
  • the anchor driver assembly need not be limited to the three-tube assembly described herein, but that alternative designs for such an assembly are possible, which cause the anchor driver assembly to install one or more connected pairs of anchors into the tissues of the bladder and the urethra radially about the respective openings of these lumens when they are brought together, in response to forces exerted or transmitted by tubes or other members.
  • the combination of tubes, positioner and driver assembly may be designed and configured in an instrument adapted for a retrograde anastomosis procedure, as described above, or configured in an instrument adapted for an antegrade procedure.
  • an antegrade procedure instead of being inserted upwardly through the urethra and into the bladder opening proximate the site of excision of the prostate, the instrument is inserted downwardly through a small incision in the patient's abdomen, through a small incision on an upper surface of the patient's bladder, into the bladder, through the bladder opening, and into the urethra opening.
  • the small incisions in the abdomen and upper surface of the bladder may be made with a cannula and trocar assembly and held open by the cannula for insertion of the instrument therethrough.
  • FIG. 110 is a perspective view of another embodiment of an anastomotic instrument 2050 of the present invention, in its pre-deployment position
  • FIG. 111 is a longitudinal cross-sectional view of the instrument, also shown in its pre- deployment position, after insertion into and through the patient's urethra and into the bladder 1.
  • the instrument may comprise fastener driver assembly 2052 including outer tube 2051 and second tube 2060.
  • Outer tube 2051 may terminate with flexible fingers 2053, which in turn terminate with proximal fastener anvils 2054.
  • Second tube 2060 may be immediately inside and substantially coaxial with outer tube 2051.
  • Second tube 2060 may terminate with flexible fingers 2061, which in turn terminate with distal fastener anvils 2062, which may be longitudinally aligned with and may longitudinally oppose proximal fastener anvils 2054.
  • fastener set 2070 in its pre-deployment shape (shown in enlarged perspective view in FIG. 119) is placed onto second tube 2060 and moved over flexible fingers 2061 to a position in which the upper prongs of fasteners 2072 of fastener set 2070 are proximate to upper anvils 2062.
  • outer tube 2051 may be slid over and up second tube 2060, until lower anvils 2054 are in a position proximate to the lower prongs of fasteners 2072 of fastener set 2070, thus holding fastener set 2070 in a position on the fastener driver assembly ready for deployment (as shown in FIG. 110) via actuation of the fastener driver assembly as will be described below.
  • fastener driver assembly 2052 may comprise outer tube 2051 with its flexible fingers 2053 and lower anvils 2054, second tube 2060, with its flexible fingers 2061 and upper anvils 2062.
  • fastener assembly 2052 When fastener assembly 2052 is assembled and made ready for use, it may include fastener set 2070 in a pre-deployment shape, placed as shown.
  • FIG. 119 shows an exemplary fastener set 2070 in a pre-deployment shape.
  • One or more individual fasteners 2072 may have upper and lower prongs with ends turned slightly outwardly, and may be linked together via serpentine links 2071.
  • FIG. 120 shows fastener set 2070 as it would appear following installation. In its installed shape, fastener set 2070 has been expanded in circumference and diameter via deformation of serpentine links 2071, and fasteners 2072 have been pushed and deformed so as to hook into tissues.
  • Fastener set 2070 may be made of a suitable substantially permanently deformable material that is non-reactive with body fluids and tissues, and substantially biocompatible. The inventors have determined that suitably treated surgical stainless steel is one example of a suitable material.
  • the fastener set be bioabsorbable
  • a suitably deformable substantially biocompatible and bioabsorbable material may be selected.
  • the inventors have determined that flexible absorbable polymers (e.g., polydioxanone polymers, or polymers containing lactides, glycolides, polyglactin, etc., such as the polymers marketed by Johnson & Johnson and/or Ethicon, Inc. under the trademarks "Vicryl" and "PDS II”) such that the fastener set can be absorbed (i.e., dissolved) in the patient's body after anastomosis is complete.
  • flexible absorbable polymers e.g., polydioxanone polymers, or polymers containing lactides, glycolides, polyglactin, etc., such as the polymers marketed by Johnson & Johnson and/or Ethicon, Inc. under the trademarks "Vicryl” and "PDS II”
  • the design of the fastener set may be modified so as to include barbs on the prongs or other suitable lodging structures, or include features that cause the prongs to meet and interlock upon installation, to form substantially closed rings.
  • the instrument of the present embodiment may also include third tube 2080, which may terminate with expander collar 2081. Affixed at the distal end of expander collar 2081 is positioner 2090, shown in a pre-deployment shape in FIGS. 110 and 111.
  • Positioner 2090 can facilitate insertion of the instrument into the patient.
  • Positioner 2090 may be made of a suitable elastic and flexible polymeric material having shape memory, manufactured so as to be biased to assume a normally transversely oriented shape as shown in FIG. 112, upon retraction of actuator rod 2092.
  • positioner 2090 may have situated thereabout one or more drainage holes 2091 which can permit urine, fluids or clotted material to drain into third tube 2080 after the instrument has been deployed.
  • Positioner 2090 may be, alternately, moved to a pre-deployment position shown in FIGS. 110 and 111, or allowed to return via shape memory to a normal position shown in FIG. 112, by longitudinal movement of rod 2092, and correspondingly, end cap 2093, which may be integrally affixed to rod 2092.
  • end cap 2093 may have thereabout one or more flutes
  • Outer tube 2051 , second tube 2060, third tube 2080 and rod 2092 may be made of a material having suitable combined properties of shape memory, flexibility, strength and stiffness that both enable the tubes and rod to flex during insertion into the patient's body and through the urethra as will be hereinafter described, but also will prevent them from collapsing, kinking, binding, or breaking during use.
  • the selected material may also be substantially non-reactive with body fluids and tissues, and be substantially biocompatible.
  • the inventors have determined that nitinol, known in the art as suitable for a variety of surgical devices and tubes, is one example of a suitable material.
  • hollow tubes may be used in the instrument for third tube 2080 when a coaxial arrangement with rod 2092 is desirable, or when third tube 2080 is to serve as a catheter, such as will be further described below, but that a rod may be substituted for third tube 2080 and be used to provide substantially the same mechanical function, i.e., transmission offerees to actuate the positioner, and thus maybe used when a catheter function, or a coaxial arrangement, and thus a tube, is not required.
  • a tube can serve the purpose of rod 2092.
  • the term "tube” where such element is operably affixed or connected with, or contacts, the positioner is intended to include and cover a rod, and vice versa.
  • the instrument 2050 may also comprise a movable, removable, or releasable, collar or sleeve (not shown) sheathing fastener driver assembly 2052 and/or the space between expander collar 2081 and fastener driver assembly 2052, so as to give the instrument a smoother longitudinal cross- sectional profile, to ease insertion and/or retraction of the instrument from a patient.
  • a method for performing anastomosis of a patient' s bladder and urethra using the above-described anastomotic instrument, following a prostatectomy, will now be described. Following a prostatectomy, the patient's bladder 1 and urethra opening 6 are separated by a void formerly occupied by the prostate, as shown in FIG. 2. It is necessary to connect the bladder 1 with the urethra 5, with bladder opening 4 and urethra opening 6 aligned, to restore urinary functions after recovery and healing.
  • the anastomotic instrument may be inserted upwardly into and through the patient's urethra 5, through the bladder opening 4, and into the bladder 1.
  • the surgeon then may proximally retract rod 2092 and correspondingly, end cap 2093, which allows positioner 2090 to assume its normal shape via shape memory, as shown in FIG. 112.
  • the now-transverse orientation of positioner 2090 will prevent it from being retracted without pulling bladder wall 2 surrounding bladder opening 4 with it.
  • the surgeon may proximally retract third tube 2080, and correspondingly, expander collar 2081, drawing expander collar 2081 inside and between distal fastener anvils 2062, to the position shown in FIG. 113.
  • Drawing expander collar 2081 inside and between distal fastener anvils 2062 will urge distal fastener anvils 2062, and correspondingly, flexible fingers 2061 (shown in FIG. 110) radially outwardly as indicated in FIG. 113.
  • This movement of flexible fingers 2061 radially outwardly forces fastener set 2070, residing on and around flexible fingers 2061 below distal fastener anvils 2062, to expand in diameter and circumference, via deformation of serpentine links 2071 (shown in detail in FIG.
  • surgeon may retract the entire instrument downwardly through the urethra, which will cause positioner 2090 to pull bladder walls 2 surrounding bladder opening 4 into contact with pelvic floor 7, with bladder opening 4 and urethra opening 6 aligned, to the position shown in FIG. 114.
  • outer tube 2051 may be moved distally, while second tube 2060 and the remaining portions of the instrument are held immobile.
  • this movement correspondingly moves proximal fastener anvils 2054 toward distal fastener anvils 2062, such that they opposingly contact, urge and deform upper and lower prongs of fasteners 2072 of fastener set 2070 such that they are pushed into the surrounding tissues of the bladder wall and pelvic floor, such that they form substantially opposing, joined hooks in the respective tissues, or even, possibly, ring shapes (see also FIG. 120).
  • the fasteners thus installed, can serve to secure the tissues of the bladder wall 2 to the tissues of the pelvic floor 7, proximate the openings of the bladder and urethra, with these openings aligned.
  • surgeon may move outer tube 2051 proximally while holding second tube 2060 immobile, causing proximal fastener anvils 2054 and distal fastener anvils 2062 to release their grip on fasteners 2072 and move apart, to the position shown in FIG. 117.
  • surgeon then may move third tube 2080 and correspondingly, expander collar 2081, distally while holding second tube 2060 immobile, pushing expander collar 2081 distally out from between upper anvils 2062 and flexible fingers 2061, permitting flexible fingers 2061 and upper anvils 2062 to return to their pre-deployment positions, circumscribing a circle of a diameter smaller than that of the now-enlarged, deployed fastener set, so as to permit retraction of the fastener driver assembly therethrough.
  • entire fastener driver assembly 2052 comprising outer tube 2051 , flexible fingers 2053, proximal fastener anvils 2054, second tube 2060, flexible fingers 2061 and distal fastener anvils 2062, may be retracted from the patient, leaving behind third tube 2080, expander collar 2081, positioner 2090, rod 2092 and end cap 2093 as shown in FIG. 118.
  • Remaining positioner 2090 and third tube 2080 may now be used to exert supplemental downward pressure on bladder walls 2 surrounding the bladder opening so as to enhance contact and knitting between the tissues of bladder walls 2 surrounding the bladder opening, and the tissues of pelvic floor 7 surrounding the urethra opening.
  • positioner 2090 including drainage holes 2091, and third tube 2080 may now be used to seal off the junction between the bladder and urethra and drain urine, fluids and/or clotted material from the bladder during recovery and healing. Fluids are permitted to flow past end cap 2093 via flutes 2094 in end cap 2093, shown in FIG. 121.
  • third tube 2080 would be connected to a urine collection bag (not shown) via intermediate tubing.
  • rod 2092 and correspondingly end cap 2093 are moved distally with respect to third tube 2080, thus urging positioner 2090 into its pre-deployment position shown in FIGS. 110 and 111, and enabling retraction of these remaining parts of the instrument out of the bladder, down through the urethra, and out of the patient's body.
  • the positioner need not be limited to the embodiment made of flexible and elastic polymeric shape memory material as described immediately above, but that alternative designs for such positioner are possible, which cause the positioner to assume, alternately, a retracted position and a deployed position, the deployed position suitable for catching in the bladder opening and urging the bladder into contact with the pelvic floor, in response to forces exerted or transmitted by tubes or other members.
  • the positioner may comprise, for example, any of the positioner assemblies depicted in FIGS. 14, 19, 24 and 57, and described above.
  • fastener driver assembly need not be limited to the two-tube assembly described herein, but that alternative designs for such an assembly are possible, which can cause the fastener driver assembly to install one or more fasteners in the tissues of the bladder and the urethra about the respective openings of these lumens when they are brought together, in response to forces exerted or transmitted by tubes or other members.
  • the combination of tubes, positioner and driver assembly may be configured in an instrument adapted for a retrograde anastomosis procedure, as described above, or configured in an instrument adapted for an antegrade procedure.
  • an antegrade procedure instead of being inserted upwardly through the urethra, and into the bladder opening proximate the site of excision of the prostate, the instrument is inserted downwardly through a small incision in the patient's abdomen, through a small incision on an upper surface of the patient's bladder, into the bladder, through the bladder opening, and into the urethra opening.
  • the small incisions in the abdomen and upper surface of the bladder may be made with a cannula and trocar assembly and held open by the cannula for insertion of the instrument therethrough.
  • FIG. 122 illustrates in longitudinal cross-section another embodiment of an anastomotic instrument 2010 of the present invention, in its pre-deployment position.
  • the instrument may comprise inner tube 2011, outer tube 2012 and rod 2019, which may be of sizes such that inner tube 2011 can be placed and be movable within outer tube 2012, and rod 2019 can be placed and be movable within inner tube 2011, in an approximately coaxial arrangement.
  • Inner tube 2011, outer tube 2012 and rod 2019 may be made of a material having suitable combined properties of shape memory, flexibility, strength and stiffness that both enable the tubes to flex during insertion into the patient's body and through the urethra as will be hereinafter described, but also will prevent them from collapsing, kinking, binding, or breaking during use.
  • the selected material may also be substantially non-reactive with body fluids and tissues, and be substantially biocompatible.
  • the inventors have determined that nitinol, known in the art as suitable for a variety of surgical devices and tubes, is an example of suitable material.
  • instrument 2010 comprises positioner 2017.
  • positioner 2017 may be substantially cylindrical, having a radius smaller or approximately equal to the radius of first tube 2012, and may have a rounded distal end.
  • the pre-deployment shape of positioner 2017 will facilitate insertion of the instrument into the patient.
  • Positioner 2017 may be made of a suitable elastic and flexible polymeric material having shape memory, manufactured so as to be biased to assume a normally transversely-oriented shape as shown in FIG. 124, upon retraction of rod 2019.
  • positioner 2017 may have, about its perimeter, one or more drainage holes 2018 which can permit urine, fluids or clotted material to drain into inner tube 2011 when the instrument is deployed.
  • Instrument 2010 may also comprise lodging member 2013. Lodging member
  • lodging member 2013 also may be a tube-like member, with a proximal end 2015 affixed to the distal end of outer tube 2012, and a distal end 2014 affixed to the distal end of inner tube 2011.
  • lodging member 2013 is operable upon deployment to present transversely-extending ribs or other projections that enable it, upon appropriate placement and longitudinal compression, to lodge within the patient's urethra.
  • lodging member 2013 may have a series of circumferential, pre-formed folds 2016, which enable lodging member 2013 to longitudinally compress when outer tube 2012 is pushed in a distal direction while inner tube 2011 is held immobile.
  • lodging member 2013 can fold in accordion-like fashion to present transversely-extending ribs or other projections that when in position within the patient's urethra, can serve to lodge the instrument in place.
  • Lodging member 2013 may be formed of polyurethane but may also be formed of any other suitable material.
  • rod 2019 is capped with end cap 2020, which may be rounded and adapted to spread the force exerted by rod 2019 against the inside of positioner 2017 so as to prevent rod 2019 from puncturing positioner 2017.
  • end cap 2020 may have thereabout one or more flutes 2021 which can allow urine, fluids or clotted material to flow past end cap 2020 when rod 2019 is retracted.
  • end cap 2020 is substantially integral therewith.
  • hollow tubes may be used in the instrument for inner tube 2011 and outer tube 2012 when a coaxial arrangement is desirable, or when one or more of these members is to serve as a catheter, such as will be further described below, but that one or more rods may be substituted for tubes and be used to provide substantially the same mechanical functions, i.e., transmission of forces to actuate the positioner and the lodging member, and thus, may be used when a catheter function, or a coaxial arrangement, and thus a tube, is not required.
  • the term "tube" is intended to include and cover a rod.
  • a method for performing anastomosis of a patient's bladder and urethra, using the above-described retrograde anastomotic instrument, following a prostatectomy, will now be described. Following a prostatectomy, the patient's bladder 1 and urethra opening 6 are separated by a void formerly occupied by the prostate, as shown in FIG. 2. It is necessary to connect the bladder 1 with the urethra 5, with bladder opening 4 and urethra opening 6 aligned, to restore urinary functions after recovery and healing.
  • anastomotic instrument 2010 may be inserted upwardly into and through the patient's urethra 5 (as can be appreciated from FIG. 127), through the bladder opening 4, and into the bladder 1.
  • the surgeon may then proximally retract rod 2019 with attached end cap 2020, which will allow positioner 2017 to assume its normal shape, which extends transversely to the longitudinal axis of the instrument within the bladder, beyond the diameter of the bladder opening 4, as shown in FIG. 124.
  • the now-transverse orientation of positioner 2017 prevents it from being retracted without pulling bladder wall 2 surrounding bladder opening 4 with it.
  • surgeon may retract the entire instrument downwardly through the urethra, which causes positioner 2017 to pull bladder walls 2 surrounding bladder opening 4 into contact with pelvic floor 7, with bladder opening 4 and urethra opening 6 aligned, in the position shown in FIG. 125.
  • outer tube 2012 may be moved distally, while inner tube 2011 is held immobile.
  • this distal movement of outer tube 2012 relative to immobile inner tube 2011 will cause longitudinal compression of lodging member 2013.
  • Pre-formed circumferential folds 2016 in lodging member 2013 cause lodging member 2013 to compress in accordion-like fashion, resulting in the presentation of transversely-extending ribs as shown, which enable the lodging member 2013, and consequently, the entire instrument, to lodge in the urethra in the position shown in FIG. 126.
  • lodging member 2013 may be configured in various embodiments as shown, such as including perforations which can serve to alleviate radial stresses in the material and thereby facilitate deployment, and also cause lodging member 2013 to present transversely-extending projections 2042, when longitudinally compressed, enhancing its effectiveness in lodging within the urethra.
  • Lodging member 2013 may also be manufactured so as to have a rough outer surface, which can also serve to enhance its effectiveness in lodging within the urethra. It may be desirable to design the lodging member so that any lodging projections that enhance its effectiveness in lodging within the urethra are limited in length so as not to substantially pierce or penetrate surrounding tissues, so as to minimize the possibility of causing permanent damage to sensitive areas in the tissues.
  • the instrument may be used to hold the bladder wall 2 surrounding the bladder opening 4 in contact with the pelvic floor 7 surrounding the urethra opening 6 with bladder opening 4 and urethra opening 6 aligned, during the period of time necessary for these tissues to knit and heal together naturally.
  • urine, fluids and/or clotted material may be drained out of bladder 1 via drainage holes 2018 in positioner 2013, and flow past end cap 2020 of rod 2019 through flutes 2021 in end cap 2020 (shown in enlarged perspective view in FIG. 127), and generally out of the patient via inner tube 2011.
  • the instrument may be connected via tubing to a urine collection bag 2023.
  • the positioner need not be limited to the embodiment made of flexible and elastic polymeric shape memory material as described herein, but that alternative designs for such positioner are possible, which cause the positioner to alternately assume a retracted position and a deployed position, the deployed position suitable for catching in the bladder opening and urging the bladder into contact with the pelvic floor, in response to forces exerted or transmitted by tubes or other members.
  • the positioner may comprise, for example, any of the positioner assemblies depicted in FIGS. 14, 19, 24 and 57, and described hereinabove.
  • the lodging member need not be limited to the hollow pre-folded polyurethane member described herein, but that alternative designs for such lodging member are possible, which cause the lodging member to alternately assume a retracted position and a deployed position, the deployed position presenting one or more ribs or projections that enable the lodging member to lodge within the urethra, in response to forces exerted or transmitted by tubes or other members.
  • the combination of tubes, positioner and lodging member may be configured in an instrument adapted for a retrograde anastomosis procedure, as described above, or configured in an instrument adapted for an antegrade procedure, as will now be described.
  • an antegrade procedure instead of being inserted upwardly through the urethra, and into the bladder opening proximate the site of excision of the prostate, the instrument is inserted downwardly through a small incision in the patient's abdomen, through a small incision on an upper surface of the patient's bladder, into the bladder, through the bladder opening, and into the urethra opening.
  • the small incisions in the abdomen and upper surface of the bladder may be made with a trocar and cannula assembly (not shown), and held open by the cannula for insertion of the instrument therethrough.
  • an antegrade anastomotic instrument 2030 may comprise outer tube 2031 , first inner tube 2032 and second inner tube 2034. Similar to the retrograde anastomotic instrument described previously, these tubes may be sized such that first inner tube 2032 can be placed and be longitudinally movable within outer tube 2031, and second inner tube 2034 can be placed and be longitudinally movable within first inner tube 2032.
  • First inner tube 2032 may have one or more drainage passages 2033 at its distal end.
  • Second inner tube 2034 may have one or more drainage passages 2035 at its distal end.
  • End cap 2036 may be affixed to the distal end of second inner tube 2034. As shown, end cap 2036 may have a rounded distal end that facilitates insertion of the instrument, and an extended section 2037 that terminates at rim 2038.
  • instrument 2030 may also comprise lodging member 2013, which may be similar to the lodging member of the retrograde anastomotic instrument previously described, and can also be configured as shown by way of example in FIGS. 131-133.
  • lodging member 2013 may be affixed at its proximal end to the distal end of first inner tube 2032 (at point A as shown), and is affixed at its distal end to extended section 2037 of end cap 2036 beneath rim 2038 (at point B as shown).
  • moving second inner tube 2034 longitudinally with respect to first inner tube 2032 will cause either, alternately, longitudinal extension, or longitudinal compression of lodging member 2013, and that extension of lodging member 2013 will cause ribs or projections presented thereby to retract into the pre-deployment position, and compression of lodging member 2013 causes ribs or projections presented thereby to extend to the deployed position (shown in FIG. 129), in a manner substantially similar to that of the lodging member of the retrograde anastomotic instrument previously described.
  • Antegrade anastomotic instrument 2030 also comprises positioner 2017. Similar to the positioner of the retrograde anastomotic instrument previously described, in its pre-deployment position positioner 2017 may be substantially cylindrical. The pre-deployment shape of positioner 2017 facilitates insertion of the instrument. Positioner 2017 may be made of a suitable elastic and flexible polymeric material having shape memory, manufactured so as to be biased to normally assume a transversely-oriented shape as shown in FIG. 129, upon retraction of first inner tube 2032 relative to outer tube 2031. Positioner 2017 may be affixed at its proximal end to the distal end of outer tube 2031 (at point C as shown in FIG.
  • positioner 2017 may have, situated thereabout, one or more drainage holes 2018 which can permit urine, fluids or clotted material to drain, through drainage passages 2033 in first inner tube 2032, though drainage passages 2035 in second inner tube 2034, and into second inner tube 2034.
  • FIG. 2 A method for performing anastomosis of a patient's bladder and urethra using the above-described antegrade anastomotic instrument, following a prostatectomy, will now be described, with reference to FIG. 2 for identification of parts of the patient's anatomy and FIG. 129 for identification of parts of the instrument.
  • the patient's bladder 1 and urethra opening 6 are separated by a void formerly occupied by the prostate, as shown in FIG. 2. It is necessary to connect the bladder 1 with the urethra 5 with bladder opening 4 and urethra opening 6 aligned, to restore urinary functions after recovery and healing.
  • a cannula with a trocar (not shown) is inserted into the patient's abdomen, and through an upper surface of the patient's bladder. The trocar is then removed and the cannula is left in place. The antegrade anastomotic instrument in its pre- deployment position is inserted into the cannula, until the entire positioner 2017 is within the bladder lumen. The surgeon then may move outer tube 2031 in a distal direction with respect to first inner tube 2032, or alternatively or simultaneously, move first inner tube 2032 in a proximal longitudinal direction with respect to outer tube 2031. This relative movement of the outer tube 2031 and first inner tube 2032 will permit positioner 2017 to assume its transversely-oriented position, shown in FIG. 129.
  • the surgeon then may manipulate the instrument to locate the bladder opening 4 with end cap 2036, and insert end cap 2036 through bladder opening 4. Positioner 2017 in its deployed position will contact bladder wall 2 and catch in bladder opening 4, and cannot pass therethrough.
  • the surgeon then may manipulate the instrument to urge bladder wall 2 surrounding bladder opening 4 downward toward pelvic floor 7, and further manipulate the instrument to locate urethra opening 6, and insert end cap 2036 into urethra opening 6.
  • bladder wall 2 surrounding bladder opening 4 may be urged into contact with pelvic floor 7 surrounding urethra opening 6, with bladder opening 4 and urethra opening 6 aligned.
  • the surgeon may retract second inner tube 2034 proximally. This will cause longitudinal compression of lodging member 2013, so that it will assume the position shown in FIG. 129, and lodge within the urethra.
  • the instrument may be used to hold the bladder wall 2 surrounding the bladder opening 4 in contact with the pelvic floor 7 surrounding the urethra opening 6 with bladder opening 4 and urethra opening 6 aligned, during the period of time necessary for these tissues to knit and heal together naturally.
  • the instrument While the instrument is lodged in position during the time required for healing, urine and other fluids may be drained out of bladder 1 via drainage holes 2018 in positioner 2017, through drainage passages 2033 and 2035, and generally out of the patient via second inner tube 2034. As shown in FIG. 129, the instrument may be connected via tubing to a urine collection bag 2023.
  • FIG. 130 depicts an alternative embodiment of instrument 2030.
  • first inner tube 2032 may be reduced in radius and second inner tube 2039 may be a rod.
  • Second inner tube 2039 may terminate at its distal end with end cap 2036, having rim 2038 and extended section 2037.
  • Use and function of the instrument depicted in FIG. 130 may be substantially similar to use and function of the instrument depicted in FIG. 129, except that following deployment and lodging of the instrument, urine and other fluids can be drained from the bladder through drainage holes 2018 in positioner 2017, and directly into outer tube 2031, which is connected to urine collection bag 2023, eliminating the necessity for additional drainage passages 2033, 2035 in internal tubes within the instrument as shown in FIG. 129.
  • the exemplary embodiments described herein for an instrument in accordance with the present invention comprise one or more tubes and/or rods, used for the translation of forces and movement from a proximal handle assembly to an assembly or assemblies proximate to a distal end of an instrument, and also, potentially, used as catheters for, among other purposes, the transmission of gas or fluid pressure, and the draining of urine or other fluids during recovery and healing.
  • the inventors have determined that nitinol, which when suitably treated and formed, has combined properties of strength, flexibility, elasticity, stiffness, hardness and biocompatibility that make it suitable as a material for such members, by way of example.
  • a polymer such as styrene might be used where it is not necessary, for example, to translate force and movement (such as, for example, when the tube functions only as a catheter).
  • any other materials having the necessary properties for the particular application may be used.
  • a bend angle in the tube assembly such as in tube assembly 500 (Fig. 3), tube assembly 3200 (Fig. 134), or other tube assembly supporting an end effector.
  • a bend proximate to the end effector assembly of about 80 to about 90 degrees (expressed as the angle at which a distal portion of the tube assembly is bent away from a straight axis projected distally from a proximal portion of the tube assembly), and preferably about 85 degrees (wherein the tube assembly defines an obtuse angle of about 95 degrees), may be desirable.
  • Such a bend angle may serve to better facilitate manipulation of the instrument within the anatomical architecture involved in the procedure, and facilitate control of the positioning of the end effector assembly within the bladder lumen to enable driving anchors at a desired or selected angle with respect to the pelvic floor.
  • the end effector assembly including any positioner assembly, anchor driver assembly and/or end cap or harness assembly, be limited in length.
  • the length of the end effector assembly, following opening of the positioner will be less than about 2 inches, and more preferably, less than about 1-/4 inches, from the proximal surfaces of the positioner when opened to the distal end of the instrument.
  • the size of the urethra and other anatomical features make it preferable that the end effector and the tube assembly be limited to a diameter of about 28 french, or about 9.3 millimeters.
  • the inventors also have determined that it may be advantageous for an instrument configured for retrograde insertion (upwardly into and through the urethra) to have a detachable and reattachable, or detached and attachable, end effector assembly.
  • an instrument configured for retrograde insertion (upwardly into and through the urethra) to have a detachable and reattachable, or detached and attachable, end effector assembly.
  • the end effector assembly comprising a positioner assembly and an anchor driver assembly such as positioner 400 and anchor driver 300 shown in FIG. 3, shuttlecock assembly 800 shown in FIG. 17, umbrella assembly 900 shown in FIG. 22, or end effector assembly 3400 shown in FIG. 134) is detached from and attachable to the supporting tube assembly or other supporting longitudinal member assembly, the end effector assembly may be separate or detached from the supporting assembly prior to insertion.
  • the supporting assembly may then be inserted through the urethra without the end effector assembly, which may ease insertion and eliminate the possibility for components of the end effector assembly, otherwise attached, to catch or cause tissue damage within the urethra during insertion.
  • the end effector assembly may be introduced into the patient's abdomen via a cannula through the abdominal wall, and attached to the supporting assembly for use in the anastomosis procedure, using any suitable means of guidance such as an endoscope, external imaging techniques and/or tactile feel.
  • the supporting assembly and the end effector assembly can have a variety of designs that enable operable connection of their respective structural and operational members to effect attachment and operability of the end effector assembly.
  • Tubes, rods or other members that are to be inserted and/or remain inside the patient for a substantial period of time during the anastomosis procedure such as but not limited to central rod or guide wire 3230, catheter tube 3510 (FIGS. 141- 144) and/or other components may be provided with an antimicrobial coating, such as that described in copending U.S. Patent Application Publication No. 2004/0220614. Additionally or alternatively, such components may be provided with a hydrophilic or other friction-reducing coating.
  • FIG. 147 it may be desirable to avoid driving anchors into areas proximate to the dorsal veins D of the penis, other neurovascular bundles N, the rectum R, or other sensitive anatomical features. Accordingly, referring to FIG. 147, it may be desirable to avoid driving anchors into areas proximate to the dorsal veins D of the penis, other neurovascular bundles N, the rectum R, or other sensitive anatomical features. Accordingly, referring to FIG.
  • anchors are preferably driven into the pelvic floor at locations within the zones of about 8 to about 10 o'clock, and about 2 to about 4 o'clock, about the urethra U, as shown at "A" and "B" respectively in FIG. 147. More preferably, as may be the case, for example, with use of the balloon and harness systems depicted and described herein, two anchors are driven into the pelvic floor at locations at about 9 and about 3 o'clock about the urethra.
  • anchors 700 or other suitable fasteners perform a holding function, holding the bladder wall to the pelvic floor and/or holding a harness to the bladder wall and/or pelvic floor.
  • Each of the anchoring and/or fastening features discussed herein is only exemplary of a large number of designs and configurations possible within the scope of the invention.
  • An anchor 700 or other fastener may have one or more suitable lodging structures that function to cause the anchor to lodge in tissues after being driven thereinto, so as to resist withdrawal from the tissues.
  • Such lodging structures may comprise barbs, circumferential ridges, projections or any other features effective to cause the anchor to lodge in the tissues when driven into them.
  • the size, shape and number of suitable lodging structures may vary. Additionally, the inventors have determined that, whenever barbs are included on an anchor it may be desirable when manufacturing such an anchor, to round off, or radius, the protruding ends of the barbs (as viewed from the anchor forward end), in order to reduce the possibility that the barbs will snag on loose bladder wall tissue during insertion and opening of an anchor driver assembly, on which the anchor is loaded, inside the bladder.
  • An anchor or other fastener may also have a head or other suitable penetration- limiting structure that may function to limit the depth to which the anchor or other fastener may be driven and may also function to assist in securing proximal tissues to underlying, distal tissues. It will be appreciated that such a penetration- limiting structure need not necessarily be located at the rearward end of an anchor shaft to be effective.
  • the forward end of an anchor be pointed or have a chisel- like shape, to facilitate more effective and/or less damaging penetration of tissues. Additionally, the inventors have determined that a point formed on the forward end of a cylindrical anchor shaft comprising three sloping flat faces in planes intersecting each other at equal angles, facilitates penetration of the anchor into tissues in a manner that minimizes the potential for the anchor to veer off-target or off-direction during driving.
  • anchors When used to secure the walls of the bladder to the pelvic floor, it may be desirable for anchors to be of a length sufficient to penetrate through the bladder walls and the fascia layer of the pelvic floor.
  • such anchors are preferably about V ⁇ -inch to 2 /4-inches in length.
  • anchors that are to be installed near the rectum it may be desirable for them to be at the shorter end of the preferred range of length.
  • Anchors 700 or other suitable fasteners may be formed from a substantially biocompatible polymer or metal. Where shape memory and elasticity may be desired, anchors may be manufactured using elements made of an elastic material, such as an elastic metal alloy or a thermally activated or activatable alloy, such as a nickel-titanium alloy (for example nitinol) or stainless steel alloy, so that the anchors or other fasteners may be preformed and biased with shaped ends or barbs along the shaft, which can be deployed by pushing them out of an instrument so that when they pass into the target tissue, they resume their shape within the target tissue.
  • an elastic material such as an elastic metal alloy or a thermally activated or activatable alloy, such as a nickel-titanium alloy (for example nitinol) or stainless steel alloy
  • anchors 700 or other suitable fasteners may be formed of a suitably substantially biocompatible and bioabsorbable material.
  • flexible absorbable polymers e.g., polydioxanone polymers, or polymers containing lactides, glycolides, polyglactin, etc., such as the polymers marketed by Johnson & Johnson and/or Ethicon, Inc. under the trademarks "Vicryl” and "PDS II"
  • Vicryl polymers marketed by Johnson & Johnson and/or Ethicon, Inc. under the trademarks "Vicryl” and "PDS II”
  • Other bioabsorbable materials having the necessary physical properties may be used.
  • bioabsorbable anchors When used to anchor harness straps for a balloon and harness system such as depicted and described herein, bioabsorbable anchors may be used to provide a bioabsorbable harness release mechanism that avoids the necessity for, or reduces the importance of, a structure or device capable of attaching a harness to, and then releasing a harness from, an anchor by mechanical means.
  • a structure such as harness hook 760 on anchor 700 is bioabsorbable, with a time degradation characteristic that corresponds to the time required for the anastomosis procedure, the degradation and dissolution of harness hook 760 through bioabsorption will serve to release harness 3430, facilitating removal from the patient.
  • bioabsorbable anchors or other suitable fasteners may be designed and manufactured in a manner in which degradation rates and particle breakup size may be controlled.
  • a bioabsorbable anchor or other fastener may be formed with a cast, molded, embossed or machined-in arrangement of scoring, perforation, or grooving that creates areas of reduced thickness and increased stress of the part in selected locations, encouraging earlier fracture proximate to such areas for the purpose of reducing the size of portions that may break away as the material degrades.
  • a bioabsorbable anchor or other fastener may be formed of joined materials, or comprise joined components, having differing degradation/absorption profiles such that zones of faster and slower degradation within the part may be created, such that the possibility of breakaway and release within a body lumen of pieces that are large enough to create a possibility of blockage or other adverse effect is reduced.
  • An anchor shaft may be hollow so as to slidably fit over a driver pin, and be substantially releasably held thereon by friction fit or any other suitable means.
  • an anchor may have a solid shaft wherein a driver pin pushes against the proximal end of the anchor or alternatively, fits over the proximal end of the anchor and releasably grips it by friction fit or any other suitable means.
  • Anchors may be provided that have a plurality of shafts, barbs and tips operatively linked to a driver assembly. It is not necessary that the anchors are individual anchors, only that each anchor's size and shape, alone or in combination, are sufficient to effect and maintain contact between proximal and underlying, distal target tissues for an appropriate period of time.
  • an anchor may be formed of a bi-metallic or other combination of at least two materials having differing expansion properties, that will cause the part formed therefrom to take a desired shape after heating, for example, by the patient's body, hi such a case, the anchor would be supplied in a cold or room-temperature state and then allowed to attain the final desired shape after installation, when heated by the patient's body.
  • nitinol may be used in this service because of its physical properties and its significant history in implantable medical devices, it may also be suitable for use as an anchor because of its overall suitability for use in conjunction with or contemplation of use of magnetic resonance imaging (MRI) technology.
  • MRI magnetic resonance imaging

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EP05766539A 2004-06-23 2005-06-21 Instrument zur erzeugung einer anastomose von geweben, die zwei körperlumen definieren Withdrawn EP1773209A4 (de)

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US58230204P 2004-06-23 2004-06-23
US63983604P 2004-12-28 2004-12-28
US11/093,694 US7559939B2 (en) 2004-05-07 2005-03-30 Instrument for effecting anastomosis of respective tissues defining two body lumens
PCT/US2005/021755 WO2006009998A2 (en) 2004-05-07 2005-06-21 Instrument for effecting anastomosis of respective tissues defining two body lumens

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US7645288B2 (en) * 2005-05-05 2010-01-12 Ethicon Endo-Surgery, Inc. Anastomotic ring applier with inflatable members
US8801735B2 (en) * 2010-07-30 2014-08-12 Ethicon Endo-Surgery, Inc. Surgical circular stapler with tissue retention arrangements
US8783543B2 (en) 2010-07-30 2014-07-22 Ethicon Endo-Surgery, Inc. Tissue acquisition arrangements and methods for surgical stapling devices
GB2531438B (en) * 2012-02-28 2016-08-31 Spiration Inc Pulmonary nodule access devices
CN109480945B (zh) * 2018-11-27 2023-08-29 林高阳 一种膀胱尿道吻合装置

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US20020013571A1 (en) * 1999-04-09 2002-01-31 Evalve, Inc. Methods and devices for capturing and fixing leaflets in valve repair
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US6508822B1 (en) * 1998-11-06 2003-01-21 St. Jude Medical Atg, Inc. Medical graft assembly
US20020013571A1 (en) * 1999-04-09 2002-01-31 Evalve, Inc. Methods and devices for capturing and fixing leaflets in valve repair

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