BACKGROUND OF THE INVENTION
This invention relates to suturing needle assemblies and methods of use thereof and more particularly to suturing needle assemblies for enabling simultaneous passage of suture and introduction of local anesthetic into body tissue. Methods of using the suturing needle assemblies include cystopexy, cystourethropexy, urethropexy and uteropexy procedures.
Stress urinary incontinence is a very common problem among females and is defined as involuntary loss of urine during coughing, laughing, sneezing or other physical activity. The most common cause of stress urinary incontinence among females is urethral hypermobility, significant displacement or prolapse of the urethra and bladder neck during strenuous physical activity, or the intrinsic urethral sphincter deficiency. Labor during childbirth, pelvic surgeries and menopause, among other conditions, lead to defects in the endopelvic fascia and the weakening of the support structures of the urethra and the bladder. During intrinsic sphincter deficiency the urethral sphincter is unable to generate enough resistance to retain urine in the bladder. This type of incontinence is commonly seen after vaginal surgeries, trauma, radiation, neurological disorders, aging or menopause. Patients with intrinsic sphincter deficiency may leak urine continuously or with minimal exertion.
Currently available methods of surgical treatment are expensive, invasive, require general anesthesia and are contraindicated in patients with other medical problems which put them into a higher surgical risk group. These methods (e.g. Kelly plication, Pereyra, Marshall-Marchetti-Krantz, Burch, Paravaginal repair) require incision that increases the risk of morbidity from the procedure. Patients with employment cannot afford to leave work for the time required for recovery from the conventional procedures, and these patients choose to suffer from urinary incontinence rather than being disabled temporarily. Commonly available procedures do not provide correction of urethral hypermobility or the intrinsic sphincter deficiency and simultaneous correction of the anatomical defects leading to cystocele and the drop in bladder neck.
Marshall-Marchetti-Krantz described a procedure where periurethral tissue is approximated to the symphysis pubis. This procedure involves abdominal incision and related complications including osteitis pubis. Burch described a procedure where the vaginal wall lateral to the bladder neck is elevated towards the cooper's ligament. This procedure also involves abdominal incision and related complications, including bladder damage with the suture material accidentally placed in the bladder as well as postoperative symptomatic enterocele and rectocele. The paravaginal repair involves reapproximating the endopelvic fascia to the pelvic wall at the arcus tendineus. This procedure also involves abdominal incision and related complications.
Pereyra described a technique where vaginal tissue on each side of the urethra is sutured to the fascia of the abdominal wall. This procedure also involves incision and related complications including injury to the surgeon's fingers with the risk of transmission of HIV, hepatitis and other infectious diseases.
Kelly plication involves dissection of vaginal wall and plication of pubocervical fascia. Procedures for intrinsic sphincter deficiency are sling procedures, artificial sphincter or the periurethral bulking injections. Sling procedures and artificial sphincter are more invasive procedures requiring extensive use of synthetic materials. Periurethral injections are expensive and provide only temporary relief.
Against this background, a need exists for surgical devices and procedures offering the least invasive, safe and effective alternative to existing methods for the surgical treatment of urinary incontinence.
It is, therefore, an object of the present invention to provide surgical tools and methods for overcoming the problems and limitations of the prior art.
Another object of the present invention is to provide suturing needle assemblies and surgical procedures for enabling simultaneous passage of suture and introduction of local anesthetic into body tissue.
Another object is to provide such needle assemblies and procedures which are used for surgical management of female urinary incontinence and other pelvic floor disorders under local anesthesia without the need for use of general anesthesia.
A further object of the invention is the provision of such needle assemblies and procedures for use in the surgical management of female urinary incontinence and other pelvic floor disorders without requiring an incision in the patient.
Still another object is to provide such needle assemblies and procedures which reduce the risk of complications, such as bleeding and infections.
Yet another object of the present invention is the provision such needle assemblies and procedures which enable patients to go home more promptly after surgery.
Another object is to provide such needle assemblies and procedures which permit the surgeon to safely perform the procedures of this invention on patients in whom traditional procedures are contraindicated due to other medical conditions.
A further object of the invention is the provision of such needle assemblies and procedures which reduce the cost of traditional surgical procedures for management of female urinary incontinence and other pelvic floor disorders.
Another object is to provide needle assemblies and procedures and procedures for use of the needle assemblies which enable the procedures to be performed in a physician's office, outpatient surgery center or mobile medical unit so as to provide patients from rural areas access to modern medical care.
Another object is to provide needle assemblies and procedures for surgical management of female urinary incontinence and other pelvic floor disorders which reduce the chance of injury or transmission of infectious disease to the surgeon.
A further object of the invention is the provision of needle assemblies and methods of using the needle assemblies for surgical management of female urinary incontinence and other pelvic floor disorders which reduces the cost of surgery by eliminating the cost of inpatient care after surgery and by eliminating the cost for general anesthesia.
Another object is to provide such needle assemblies and procedures which reduce the possibility of accidental damage to organs of the patient during the surgical procedures.
Another object is to provide instruments and surgical techniques which allow for permanent correction of the anatomical defects leading to pelvic organ prolapse and urinary incontinence.
A further object is to provide instruments and surgical techniques that are minimally invasive and which provide a bigger, stronger area of anchoring on the abdominal muscles.
Still another object is to provide instruments and surgical techniques which decrease the chances of sutures cutting through.
Another object is to provide instruments and surgical techniques where there is no synthetic support material under the bladder or on the abdomen.
A further object is to provide instruments and surgical techniques for their use wherein the techniques are easy to perform, reproducible and safe for the surgeon and the patient.
Additional objects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objects and advantages are realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.
SUMMARY OF THE INVENTION
To achieve these and other objects, the present invention provides a suturing needle assembly for enabling simultaneous passage of suture and introduction of local anesthetic into body tissue, the assembly comprising: a hollow needle body defining an interior passageway and further defining first and second ends having first and second openings therein, respectively, in fluid communication with the passageway; the first end further defining a third opening therein for removably receiving a suture; and means connected to the second end for removably attaching the needle assembly to a source of local anesthetic.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory but are not restrictive of the invention.
BRIEF DESCRIPTION OF THE DRAWINGS
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate preferred embodiments of the invention and, together with the description, serve to explain the principles of the invention.
FIG. 1 is a top plan view showing a first embodiment of a needle assembly in accordance with the invention;
FIG. 1A is a fragmentary perspective view of an end portion of the needle assembly shown in FIG. 1;
FIG. 2 is a side elevation view of the needle assembly shown in FIG. 1;
FIG. 3 is a perspective view of the needle assembly shown in FIG. 1;
FIG. 4 is an end elevation view of the needle assembly shown in FIG. 1;
FIG. 5 is a top plan view of a second needle assembly embodiment in accordance with the invention;
FIG. 6 is a side elevation view of the needle assembly shown in FIG. 5;
FIG. 7 is an end elevation view of the needle assembly shown in FIG. 5;
FIG. 8 is a perspective view of the needle assembly shown in FIG. 5;
FIG. 8A is a fragmentary perspective view of an end portion of the needle assembly shown in FIG. 5;
FIGS. 9-19 show use of the needle assemblies illustrated in FIGS. 1 and 5 in cystopexy, uteropexy and urethropexy surgical procedures; and
FIGS. 20-28 show use of the needle assemblies illustrated in FIGS. 1 and 5 in a cystouretheropexy surgical procedure.
DESCRIPTION OF THE PREFERRED EMBODIMENT
With reference now to the drawings, wherein like reference characters designate like or corresponding parts throughout the several views, there is shown in FIGS. 1-4 a first suturing needle assembly embodiment 50 for enabling simultaneous passage of suture and introduction of local anesthetic into body tissue. In accordance with the invention, assembly 50 comprises a hollow, elongated needle body 52 defining an interior passageway 54 which extends the full length of needle body 52, and further defining first and second ends 56, 58 having first and second openings 56′, 58′, respectively, therein in fluid communication with passageway 54.
First end 56 further defines a third opening 60 therein for removably receiving a suture, and means 62 are connected to second end 58 for removably attaching needle assembly 50 to a source of local anesthetic 64 (see FIG. 10) in a conventional manner.
In accordance with the invention, first end 56 is a slightly blunted sharp end for decreasing the risk of accidental injuries and is beveled with respect to needle body 52 to form a beveled end surface 66 (see FIG. 1A). Third opening 60 extends through beveled end surface 66 for enabling a suture to removably pass through opening 60.
Means 68 are attached to needle body 52 in a conventional manner, such as by welding, for enhancing a user's grip of needle assembly 50 during use thereof. Surface 70 of gripping means 68 is preferably roughened or scored to provide enhanced gripping of gripping means 68 by a user and to provide enhanced control of needle assembly 50 during surgical procedures.
Needle body 52 defines a first straight portion 72 adjacent to first end 56 and a second straight portion 74 connected to first straight portion 72 and adjacent to second end 58. First and second straight portions 72, 74 define an angle 75 therebetween of from one hundred ten degrees to one hundred eighty degrees, but preferably one hundred forty-five degrees. Needle assembly 50 is preferably made from stainless steel.
A second needle assembly embodiment 50′ is shown in FIGS. 5-8A. Needle assembly 50′ comprises a hollow, elongated needle body 52′ which defines a first straight portion 76 adjacent to first end 78. Needle body 52′ further defines a second straight portion 80 adjacent to second end 82. Needle body 52′ further defines a third straight portion 84 connected to first straight portion 76 and a fourth straight portion 86 connected between portions 80 and 84. Fourth portion 86 defines first and second angles 88, 90 with each of straight portions 80, 84, respectively. Angles 88, 90 are from one hundred fifteen degrees to one hundred seventy-five degrees but preferably one hundred forty-five degrees, and angles 88, 90 are equal to each other.
First and third straight portions 76, 84 define a third angle 92 therebetween of from one hundred five degrees to one hundred sixty-five degrees but preferably one hundred thirty-five degrees.
Needle assembly 50′ is preferably configured wherein second straight portion 80 defines an extended imaginary straight center line therethrough (not shown) which intersects with first straight portion 76. This configuration is best seen in FIG. 6.
Needle assembly 50′ defines an interior passageway 54′ which extends the entire length of assembly 50′ between ends 78 and 82. First end 78 is a slightly blunted sharp end for decreasing accidental injuries and is beveled with respect to straight portion 76 of needle body 52′ to form a beveled end surface 66′ (see FIG. 8A). Opening 60′ extends through beveled end surface 66′ for enabling a suture to removably pass through opening 60′.
Means 68′ are attached to portion 80 of needle assembly 50′ in a conventional manner, such as by welding, for enhancing a user's grip of needle assembly 50′ during use thereof. Surface 70′ of gripping means 68′ is preferably roughened or scored to provide enhanced gripping of gripping means 68′ by a user and to provide enhanced control of needle assembly 50′ during surgical procedures.
Means 62′ are conventionally connected to second end 82 for removably attaching needle assembly 50′ to a source of local anesthetic 64′ (see FIG. 16) in a conventional manner. Needle assembly 50′ is preferably made from stainless steel.
Needle assembly 50 is configured for allowing simultaneous infiltration of local anesthetic and the passage of suture from the patient's bladder neck and paraurethral area in the vaginal wall to the anterior abdominal wall for urinary incontinence or other pelvic floor relaxation surgeries. Needle assembly 50′ is configured for allowing simultaneous infiltration of local anesthetic and the passage of suture from one side of the patient's anterior abdominal wall to the other side for urinary incontinence and other pelvic floor relaxation surgeries. Needle assembly 50′ allows passage of suture under the skin, therefore eliminating the need for an incision.
It should be understood, however, that this invention also contemplates needles of different configurations for enabling the simultaneous passage of suture and the introduction of local anestheic through the hollow needle into body tissue.
The configuration of needle assembly 50 protects organs of the patient from being damaged by needle assembly 50 because blunted sharp end 56 points toward the patient's pubic bone during the surgical procedures. The chances of accidentally damaging other organs of the patient during the surgical procedures are almost eliminated and allows the surgeon to comfortably drive needle assembly 50 behind the patient's pubic bone.
The configuration of needle assembly 50′ also protects organs of the patient from being damaged by needle assembly 50′ during the surgical procedures because blunted sharp end 78 of needle assembly 50′ points toward the patient's skin during the procedures. The configuration of needle assembly 50′ also gives the surgeon peace of mind because the chances of accidentally damaging other organs of the patient are eliminated and allows the surgeon to comfortably drive the needle of assembly 50′ underneath the patient's skin. The configuration of needle assembly 50′, angle 92 and the relative length of straight portion 76 allows comfortable passage of suture.
Use of needle assemblies 50 and 50′ generally comprises the steps of positioning a conventional suture into and through openings 60, 60′ of needle assemblies 50, 50′, respectively, and attaching a source 64, 64′ of local anesthetic to needle assemblies 50, 50′ in a conventional manner to attaching means 62, 62′ of needle assemblies 50, 50′, respectively.
Blunted sharp ends 56, 78 of needle assemblies 50, 50′, respectively, are introduced with the attached sutures into body tissue while local anesthetic is simultaneously passed from sources 64, 64′ through hollow interior passageways 54, 54′ of assemblies 50, 50′, respectively.
The local anesthetic is introduced into the body tissue by passing the local anesthetic from sources 64, 64′ through openings 58′, 82′, respectively, of assemblies 50, 50′ and through interior passageways 54, 54′ of assemblies 50, 50′, respectively, and through openings 56′, 78′, of assemblies 50, 50′, respectively, into the body tissue. Specific surgical procedures are provided in accordance with this invention which use needle assemblies 50, and 50′. The specific surgical procedures will now be described in detail.
Cystopexy
1. Prep and drape the patient in usual fashion in low lithotomy position. Drain the bladder.
2. Place a dot with marking pen 4 cm lateral from the midline on both sides just above the edge of the pubis.
3. Apply 1% Xylocaine jelly in the urethra and bladder.
4. Place a 4 inch×4 inch gauze pad soaked with 1% Xylocaine jelly in anterior portion of the vagina and remove after a few minutes.
5. Insert a weighted speculum to depress the posterior vagina.
6. Insert a 20 French Foley catheter 91 with 30 cc balloon, inflate and clamp.
7. Inject 1 cc of 1% Xylocaine into the skin at pen marks on both sides above the pubis.
8. Inject 1 cc of 1% Xylocaine on both sides 1 cm lateral at the level of the bladder neck.
9. Place a 3 loop suture 1 cm lateral at the level of the bladder neck on both sides using a #1 Novafil on CT1 needle (or similar permanent suture) through the entire thickness of the vagina. Do not tie the knot. Hold the suture with straight Kelly clamps. (See FIG. 9.)
10. Fill a 15 cc syringe 93 with 1% Xylocaine. Attach syringe 93 to needle assembly 50 with small IV extension tubing 94 in a conventional manner.
11. Drain needle 50 to remove the air.
12. Thumbpiece 68 on needle 50 is firmly grasped, angled and directed towards the posterior pubis at the right pen mark. Needle 50 is introduced into the retropubic space paravesically along the posterior aspect of the pubic bone. (See FIG. 10.) Assistant continuously injects Xylocaine while needle 50 is driven. Assistant as well pulls the Foley catheter to the contralateral side.
13. Index finger with a thimble 96 is placed in the right side of vagina lateral to the bladder neck and pushed upwardly behind the pubis. Needle 50 is guided over thimble 96 until it emerges through the vagina. (See FIGS. 10-12.)
14. Disconnect needle 50 from tubing 94.
15. Steps 10 through 14 are repeated on the contralateral side.
16. Catheter 91 is removed and cystoscopy is performed with a 70-degree lens to rule out bladder perforation.
17. Foley catheter 91 is placed as in step 6.
18. Suture from the straight Kelly clamps is passed through hole 60 in needle 50 on both sides of the patient. (See FIG. 13.)
19. Needles 50 are pulled back slowly along the posterior aspect of the pubis until sutures are pulled through the anterior abdominal wall. (See FIGS. 14 and 15.)
20. Needle 50 is removed and suture grasped with straight Kelly clamp on both sides.
21. Steps 10 and 11 are repeated with needle assembly 50′.
22. Release one arm of the left suture and thread through hole 60′ in needle 50′. (See FIG. 16.) Hold the other suture arm with a straight Kelly clamp.
23. Introduce needle 50′ into the left skin puncture site. Continuously injecting Xylocaine drive needle 50′ pointing downwardly then laterally just above the fascia and finally upwardly until it emerges through the right skin puncture site. (See FIG. 17.)
24. Release the suture from needle 50′.
25. Release one arm of the right suture and thread through hole 60′ in needle 50′. (See FIG. 17.) Hold the other suture arm with the straight Kelly clamp along with the remaining left suture arm.
26. Pull needle 50′ back until suture emerges through the left puncture site. Release the right suture from needle 50′ and hold the right suture with left straight Kelly clamp.
27. Release Kelly clamps, apply slight traction on the sutures on both sides and reapply the Kelly clamps.
28. Assistant elevates the patient's bladder neck by pushing the anterior vaginal wall upwardly behind the pubis with fingers.
29. When the bladder neck is in normal anatomical position, elevated by assistant's fingers, tie the sutures on both sides with 8 knots into the skin puncture sites (see FIGS. 18 and 19) and cut the sutures right above the knots.
30. Lift the edges of the puncture sites bilaterally with Edson forceps and allow the knots to retract.
31. Apply sterile strips on puncture sites.
32. Clamp on the Foley catheter 91 is now removed. Patient is transferred to the recovery area with urinary drainage bag. Foley catheter 91 is removed before transfer if patient is prescribed intermittent self-catheterization.
Cystourethropexy
1. Prep and drape the patient in usual fashion in low lithotomy position. Drain the bladder.
2. Place a dot with marking pen 4 cm lateral from the midline on both sides just above the edge of the pubis.
3. Apply 1% Xylocaine jelly in the urethra and bladder.
4. Place a 4 inch×4 inch gauze pad soaked with 1% Xylocaine jelly in anterior portion of the vagina and remove after a few minutes.
5. Insert a weighted speculum to depress the posterior vagina.
6. Insert a 20 French Foley catheter 91 with 30 cc balloon, inflate and clamp.
7. Inject 1 cc of 1% Xylocaine into the patient's skin at pen marks on both sides above the pubis.
8. Inject 1 cc of 1% Xylocaine on both sides 1 cm lateral at the level of the bladder neck.
9. Place a 3 loop suture 1 cm lateral at the level of the bladder neck on both sides using a #1 Novafil on CT1 needle (or similar permanent suture) through the entire thickness of the vagina. Do not tie the knot. Hold the suture with straight Kelly clamps. (See FIG. 20.)
10. Place a 3 loop suture 1 cm lateral at the level of proximal ⅓ of the urethra on both sides using #1 Novafil on CT1 needle (or similar permanent suture) through the entire thickness of the vagina. Do not tie the knot. Crush the ends with the needle holder for later identification. Hold the suture with curved Kelly clamps. (See FIG. 20.)
11. Fill a 15 cc syringe 93 with 1% Xylocaine. Attach the syringe to needle 50 with small IV extension tubing 94 in a conventional manner.
12. Drain needle 50 to remove the air.
13. Thumbpiece 68 on needle 50 is firmly grasped, angled and directed towards the posterior pubis at the right pen mark. Needle 50 is introduced into the retropubic space paravesically along the posterior aspect of the pubic bone. (See FIG. 21.) Assistant continuously injects Xylocaine while needle 50 is driven. Assistant as well pulls the Foley catheter 91 to the contralateral side.
14. Index finger with thimble 96 is placed in the right side of the vagina lateral to the bladder neck and pushed upwardly behind the pubis. Needle 50 is guided over thimble 96 until needle 50 emerges through the vagina. (See FIG. 22.)
15. Disconnect needle 50 from tubing 94.
16. Steps 11 through 14 are repeated on the contralateral side.
17. Catheter 91 is removed and cystoscopy is performed with a 70-degree lens to rule out bladder perforation.
18. Foley catheter 91 is placed as in step 6.
19. Sutures from both the curved and straight Kelly clamps are passed through hole 60 in needle 50 on both sides of the patient. (See FIG. 23.)
20. Needles 50 are pulled back slowly along the posterior aspect of the pubis until sutures are pulled through the anterior abdominal wall. (See FIGS. 24 and 25.)
21. Needle 50 is removed. On both sides crush marked suture is grasped with the curved Kelly clamp and unmarked suture is grasped with the straight Kelly clamp.
22. Steps 11 and 12 are repeated with needle 50′.
23. Release one arm of the left marked and unmarked suture and thread through hole 60′ in needle 50′. Hold the other suture arms with curved and straight Kelly clamps. (See FIG. 26.)
24. Introduce needle 50′ into the left skin puncture site. Continuously injecting Xylocaine drive needle 50′ pointing downwardly then laterally just above the fascia and finally upwardly until needle 50′ emerges through the right skin puncture site.
25. Release the suture from needle 50′.
26. Release one arm of the right marked and unmarked suture and thread through hole 60′ in needle 50′. Hold the other suture arms with curved and straight Kelly clamps along with the remaining left marked and unmarked suture arms. (See FIG. 27.)
27. Pull needle 50′ back until suture emerges through the left puncture site. Release suture from needle 50′ and hold the released suture with left marked and unmarked sutures using curved and straight Kelly clamps.
28. On both sides release Kelly clamps one at a time, apply slight traction on the sutures and reapply the Kelly clamps.
29. Assistant elevates the bladder neck by pushing anterior vaginal wall upwardly behind the pubis with fingers.
30. When bladder neck is in normal anatomical position, elevated by assistant's fingers, tie the sutures on both sides releasing each Kelly clamp with 8 knots into the skin puncture sites and cut the sutures right above the knots. (See FIG. 28.)
31. Lift the edges of the puncture sites bilaterally with Edson forceps and allow the knots to retract.
32. Apply sterile strips on puncture sites.
33. Clamp on the Foley catheter 91 is now removed. Patient is transferred to the recovery area with urinary drainage bag. Foley catheter 91 is removed before transfer if patient is prescribed intermittent self-catheterization.
Urethropexy
1. Prep and drape the patient in usual fashion in low lithotomy position. Drain the bladder.
2. Place a dot with marking pen 4 cm lateral from the midline on both sides just above the edge of the pubis.
3. Apply 1% Xylocaine jelly in the urethra and bladder.
4. Place a 4 inch×4 inch gauze pad soaked with 1% Xylocaine jelly in anterior portion of the vagina and remove after a few minutes.
5. Insert a weighted speculum to depress the posterior vagina.
6 Insert a 20 French Foley catheter 91 with 30 cc balloon, inflate and clamp.
7. Inject 1 cc of 1% Xylocaine into the skin at pen marks on both sides above the pubis.
8. Inject 1 cc of 1% Xylocaine on both sides 1 cm lateral at the level of the bladder neck.
9. Place a 3 loop suture 1 cm lateral at the level of proximal ⅓ of urethra on both sides using a #1 Novafil on CT1 needle (or similar permanent suture) through the entire thickness of the vagina. Do not tie the knot. Hold the suture with straight Kelly clamps. (See FIG. 9.)
10. Fill a 15 cc syringe 93 with 1% Xylocaine. Attach syringe 93 to needle assembly 50 with small IV extension tubing 94 in a conventional manner.
11. Drain needle 50 to remove the air.
12. Thumbpiece 68 on needle 50 is firmly grasped, angled and directed towards the posterior pubis at the right pen mark. Needle 50 is introduced into the retropubic space paravesically along the posterior aspect of the pubic bone. (See FIG. 10.) Assistant continuously injects Xylocaine while needle 50 is driven. Assistant as well pulls the Foley catheter 91 to the contralateral side.
13. Index finger with thimble 96 is placed in the right side of vagina lateral to the bladder neck and pushed upwardly behind the pubis. Needle 50 is guided over thimble 96 until needle 50 emerges through the vagina. (See FIGS. 10-12.)
14. Disconnect needle 50 from tubing 94.
15. Steps 10 through 14 are repeated on the contralateral side.
16. Catheter 91 is removed and cystoscopy is performed with a 70-degree lens to rule out bladder perforation.
17. Foley catheter 91 is placed as in step 6.
18. Suture from the straight Kelly clamps is passed through hole 60 in needle 50 on both sides of the patient. (See FIG. 13.)
19. Needles 50 are pulled back slowly along the posterior aspect of the pubis until sutures are pulled through the anterior abdominal wall. (See FIGS. 14 and 15.)
20. Needle 50 is removed and suture grasped with straight Kelly clamp on both sides.
21. Steps 10 and 11 are repeated with needle assembly 50′.
22. Release one arm of the left suture and thread through hole 60′ in needle 50′. (See FIG. 16.) Hold the other suture arm with a straight Kelly clamp.
23. Introduce needle 50′ into the left skin puncture site. Continuously injecting Xylocaine drive needle 50′ pointing downwardly then laterally just above the fascia and finally upwardly until needle 50′ emerges through the right skin puncture site. (See FIG. 17.)
24. Release the suture from needle 50′.
25. Release one arm of the right suture and thread through hole 60′ in needle 50′. (See FIG. 17.) Hold the other suture arm with the straight Kelly clamp along with the remaining left suture arm.
26. Pull needle 50′ back until suture emerges through the left puncture site. Release the right suture from needle 50′ and hold the right suture with left straight Kelly clamp.
27. Release Kelly clamps, apply slight traction on the sutures on both sides and reapply the Kelly clamps.
28. Assistant elevates the patient's distal urethra by pushing the anterior vaginal wall upwardly behind the pubis with fingers.
29. When the distal urethra is in normal anatomical position, elevated by assistant's fingers, tie the sutures on both sides with 8 knots into the skin puncture sites (see FIGS. 18 and 19) and cut the sutures right above the knots.
30. Lift the edges of the puncture sites bilaterally with Edson forceps and allow the knots to retract.
31. Apply sterile strips on puncture sites.
32. Clamp on the Foley catheter 91 is now removed. Patient is transferred to the recovery area with urinary drainage bag. Foley catheter 91 is removed before transfer if patient is prescribed intermittent self-catheterization.
Uteropexy
Uterine Suspension for Uterine Prolapse
Labor during childbirth and menopause among other conditions can lead to defects and weakening of the support structures of the uterus leading to uterine prolapse along with the weakening of the support structures of the bladder and the urethra. Suspension of the uterus in incontinence patients with uterine prolapse improves the outcome of the incontinence procedure.
1. Prep and drape the patient in usual fashion in low lithotomy position. Drain the bladder.
2. Place a dot with marking pen 4 cm lateral from the midline on both sides just above the edge of the pubis.
3. Apply 1% Xylocaine jelly in the urethra and bladder.
4. Place a 4 inch×4 inch gauze pad soaked with 1% Xylocaine jelly in anterior portion of the vagina and remove after a few minutes.
5. Insert a weighted speculum to depress the posterior vagina.
6. Insert a 20 French Foley catheter 91 with 30 cc balloon, inflate and clamp.
7. Inject 1 cc of 1% Xylocaine into the skin at pen marks on both sides above the pubis.
8. About 3 cc of local anesthetic is injected into the uterine wall at the level of the cardinal ligament or uterosacral ligament on both sides.
9. 5-10 cc of local anesthetic is infiltrated submucosally from the ligament to the urethrovesical junction on both sides.
10. Using #1 permanent sutures (Prolene or Novafil) a two to three loop submucosal suture is placed around the ligament (cardinal or uterosacral). To place a submucosal suture the suture needle is introduced into the uterine wall (first puncture site) and exited. After the exit, the needle is introduced back into the exit site, advanced submucosally and delivered through the first puncture site. This allows the sutures to be buried entirely into the tissue.
11. If combining with a different procedure (bladder suspension, etc.) for later identification a crush mark using a needle holder is placed about 2 cm from the tip of each suture arm.
12. Needle is removed from the suture.
13. A free needle is used to pass both arms of the suture underneath the mucosa from the ligament to the urethrovesical angle.
14. Both arms of the suture are held with a clamp.
15. Steps 10-13 are performed on the contralateral side. (Steps 10-13 are performed on both sides.)
16. Fill a 15 cc syringe 93 with 1% Xylocaine. Attach syringe 93 to needle assembly 50 with small IV extension tubing 94 in a conventional manner.
17. Drain needle 50 to remove the air.
18. Thumbpiece 68 on needle 50 is firmly grasped, angled and directed towards the posterior pubis at the right pen mark. Needle 50 is introduced into the retropubic space paravesically along the posterior aspect of the pubic bone. (See FIG. 10.) Assistant continuously injects Xylocaine while needle 50 is driven. Assistant as well pulls the Foley catheter to the contralateral side.
19. Index finger with a thimble 96 is placed in the right side of vagina lateral to the bladder neck and pushed upwardly behind the pubis. Needle 50 is guided over thimble 96 until it emerges through the vagina. (See FIGS. 10-12.)
20. Disconnect needle 50 from tubing 94.
21. Steps 16 through 20 are repeated on the contralateral side.
22. Catheter 91 is removed and cystoscopy is performed with a 70-degree lens to rule out bladder perforation.
23. catheter 91 is placed as in step 6.
24. Suture from the straight Kelly clamps is passed through hole 60 in needle 50 on both sides of the patient. (See FIG. 13.)
25. Needles 50 are pulled back slowly along the posterior aspect of the pubis until sutures are pulled through the anterior abdominal wall. (See FIGS. 14 and 15)
26. Needle 50 is removed and suture grasped with straight Kelly clamp on both sides.
27. Steps 16 and 17 are repeated with needle assembly 50′.
28. Release one arm of the left suture and thread through hole 60 in needle 50′. (See FIG. 16.) Hold the other suture arm with a straight Kelly clamp.
29. Introduce needle 50′ into the left skin puncture site. Continuously injecting Xylocaine drive needle 50′ pointing downwardly then laterally just above the fascia and finally upwardly until needle 50′ emerges through the right skin puncture site. (See FIG. 17.)
30. Release the suture from needle 50′.
31. Release one arm of the right suture and thread through hole 60′ in needle 50′. (See FIG. 17.) Hold the other suture arm with the straight Kelly clamp along with the remaining left suture arm.
32. Pull needle 50′ back until suture emerges through the left puncture site. Release the right suture from needle 50′ and hold the right suture with left straight Kelly clamp.
33. Release Kelly clamps, apply slight traction on the sutures on both sides and reapply the Kelly clamps.
34. Assistant elevates the patient's uterus by pushing the anterior vaginal wall upwardly behind the pubis with fingers.
35. When uterus is in normal anatomical position, elevated by assistant's fingers, tie the sutures on both sides with 8 knots into the skin puncture sites (see FIGS. FIG. 18and 19 ) and cut the sutures right above the knots.
36. Lift the edges of the puncture sites bilaterally with Edson forceps and allow the knots to retract.
37. Apply sterile strips on puncture sites.
38. Clamp on the Foley catheter 91 is now removed. Patient is transferred to the recovery area with urinary drainage bag. Foley catheter 91 is removed before transfer if the patient is prescribed intermittent self-catheterization.
It should be understood that a permanent suture like Prolene can be used instead of Novafil and that other local anesthetic, instead of Xylocaine, can be used in the procedures described.
The invention in its broader aspects is not limited to the specific details shown and described, and departures may be made from such details without departing from the principles of the invention and without sacrificing its chief advantages.