WO1999009914A1 - Cortical bone cervical smith-robinson fusion implant - Google Patents
Cortical bone cervical smith-robinson fusion implant Download PDFInfo
- Publication number
- WO1999009914A1 WO1999009914A1 PCT/US1998/017769 US9817769W WO9909914A1 WO 1999009914 A1 WO1999009914 A1 WO 1999009914A1 US 9817769 W US9817769 W US 9817769W WO 9909914 A1 WO9909914 A1 WO 9909914A1
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- WO
- WIPO (PCT)
- Prior art keywords
- implant
- bone
- canal
- plug
- cortical bone
- Prior art date
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F2250/00—Special features of prostheses classified in groups A61F2/00 - A61F2/26 or A61F2/82 or A61F9/00 or A61F11/00 or subgroups thereof
- A61F2250/0058—Additional features; Implant or prostheses properties not otherwise provided for
- A61F2250/006—Additional features; Implant or prostheses properties not otherwise provided for modular
- A61F2250/0063—Nested prosthetic parts
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F2310/00—Prostheses classified in A61F2/28 or A61F2/30 - A61F2/44 being constructed from or coated with a particular material
- A61F2310/00005—The prosthesis being constructed from a particular material
- A61F2310/00179—Ceramics or ceramic-like structures
- A61F2310/00293—Ceramics or ceramic-like structures containing a phosphorus-containing compound, e.g. apatite
Definitions
- This invention relates to a cortical bone implant for use in cervical Smith-Robinson vertebral fusion procedures, as well as methods for the manufacture and use thereof.
- U.S. Patent No. 5,609,635 discloses a lordotic interbody spinal fusion implant comprising a wedge shaped metallic cage for insertion into the intervertebral space.
- U.S. Patent No. 5,306,307 discloses a ceramic spinal disk implant having a serrated edge.
- cortical bone intervertebral implant having a substantially "D"- or bread-loaf-shaped structure having a canal into which osteogenic, osteoinductive, or osteoconductive materials may be packed, which sustains spinal loads, and which is remodeled into the spine in the course of fusion. Accordingly, the present invention addresses the need in the art for improvements to both the implant and the avoidance of post- surgical complications from anterior cervical fusions.
- the present invention provides a new cortical bone implant for use in achieving anterior cervical fusions when implanted according to the Smith-Robinson procedure.
- the present invention comprises unique methods and apparatuses for the manufacture of the substantially "D"-shaped cortical bone implant.
- Figure 3 provides a view of broach as used according to this invention and an asymmetric canal formed by use of such a broach.
- Figure 4 provides several views of an apparatus for machining a profile on the exterior surface of the implant of this invention.
- Figure 5 provides a view of an apparatus for inscribing retention teeth in the upper surface, lower surface or both upper and lower surfaces of the implant.
- Figure 6 provides several views and dimensions for specific embodiments of the implant of this invention.
- Figure 7 provides a view of a stacked embodiment of the implant of this invention.
- Figure 8 provides several views of an implant of this invention formed by juxtaposition of mirror image halves of the implant, as well as an embodiment useful for posterior lumbar intervertebral fusion procedures (PLIFs).
- PLIFs posterior lumbar intervertebral fusion procedures
- Figure 9 provides a view of a stacked embodiment of the implant of this invention wherein the stacked constituents thereof are retained in registered relationship by press-fitting or otherwise bringing more than one implant into contact with each other and having a cancellous plug or other biocompatible material located in the central canal of each stacked implant, thereby acting as a retention pin.
- Figure 10 shows an alternate method for producing bone stock for making the implant of this invention of essentially unlimited height from the anterior margin of the tibia or the linea aspera of the femur.
- Figure 11 shows dimensions and further processing of the implant of this invention produced according to the alternate method of figure 10.
- Figures 12-17 show final profiles for implants produced according to the alternate method of figures 10 and 11.
- a substantially "D"-shaped cortical bone implant for cervical Smith-Robinson fusions is produced, preferably under aseptic conditions.
- Class 10 clean room processing is desirable, and sterilization of all machining tools is likewise preferred, (particularly after switching from one allograft donor to the next), so that the finished product may be treated by standard techniques known in the art (alcohol, peroxide, or like treatments), prior to storage and shipment to physicians for use in implantation procedures.
- standard techniques known in the art alcohol, peroxide, or like treatments
- the implant is preferably formed from cortical bone obtained from tibia, femur or other source of strong cortical bone.
- the bone source may be autograft or, due to possible complications at the donor site (infection, pain, delayed healing), is preferably, allograft bone.
- extensive in vitro testing should be conducted to ensure the absence of pathogenic agents.
- the approach adopted in describing the implant of this invention is to first provide a narrative disclosure of preferred methods for making the implant, followed by a detailed description of the implant itself, followed by a detailed description of various apparatuses and aspects of the machining process, and finally, a detailed description of the method of using the implant.
- cortical bone While any shape of cortical bone may be used to begin with, we have found that for consistent production of cortical bone which may be reliably machined, it is advantageous to commence with a plug of bone which extends from the exterior of the diaphysis of a long bone toward the intramedullary canal (where, in vivo, the bone marrow resides).
- a bone plug or dowel which has an outer substantially cortical end and an internal end which is composed largely of soft cancellous bone.
- a core cutter is convenient.
- This device comprises an outer coring element of any desired diameter, whereby the diameter of the bone plug is defined, and a centrally located solid drill bit, which provides a canal through the center of the bone plug as well as stability for the core cutting element.
- the core cutter-drill assembly is preferably torqued by an air drill, driven by sterile air, and the source bone is preferably immobilized in a sterilized vice during the core-cutting process.
- cortical bone implants may be fashioned having heights, widths and lengths which are practically useful in the Smith-Robinson cervical fusion method. According to this method, the height of the implant is only limited by the distance from the exterior of the bone diaphysis to the intramedullary canal.
- alternate methods of producing the implant of desired heights disclosed herein may be employed.
- implants of this invention are produced and then stacked to provide a unitary implant of the desired height dimensions.
- Such stacked implants may be maintained in a unitary association by drilling appropriate holes through the height of the implant, and inserting therein appropriate retention pins made from any desirable material, including cortical bone, bioabsorbable synthetic polymer, titanium or other metallic retention pins.
- the stacked implants may be retained in a unitary association by means of a plug of cancellous bone, hydroxyapatite or other biocompatible, osteoconductive or osteoinductive material, and press- fitting the stacked implants to achieve the desired height (see figure 9).
- a section of cortical bone along the long axis of a long bone may be machined according to methods known in the art. By then further shaping and cutting appropriate heights in such cortical bone, and bringing halves of the implant into juxtaposition with each other, implants of any desired shape and height are produced.
- unitary implants of this invention of essentially unlimited height are produced by length- wise sectioning the anterior margin of the tibia or linea aspera of the femur, segmenting the substantially triangular cortical bone to desired heights, drilling a cannulation through the segments thus produced, and finally shaping the implants to desired dimensions, as defined below for the first principal method of making the implant of this invention.
- the cancellous bone on the internal side of the bone plug is removed by any convenient means, including with a saw, an abrasive means such as a diamond tipped rotary sander, or a tooling bit mounted in a lathe, to produce a "washer" shaped piece of substantially cortical bone.
- Both the internal and external ends of the bone plug should be machined flat, thereby forming a top face and a bottom face, each of which is substantially planar, and preferably parallel.
- the circular internal canal formed by the centrally located solid drill bit of the core-cutter is modified to form an asymmetric shape, such as a key way. This may be achieved by any of a number of different means, including drilling a slot into an aspect of the internal canal closest to the external (more dense cortical) end of the dowel.
- an implant of consistently good final quality may be machined by conversion of the circular canal into a substantially "D" shaped canal having three essentially rectangular walls and a fourth convexly curved wall.
- each ring of the plurality of rings has a shape which, starting at the insertion end of the broach is tapered from an essentially circular shape to any desired final shape for the canal. Accordingly, in one embodiment of this invention, the rings transition from a circular shape to a substantially "D"-shaped profile or any other desired shape over several inches and over a plurality of spaced apart rings.
- patent 5,306,309; 5,522,899) made from materials other than bone, because of the ability of the convexly curved face of the implant to substantially match the curvature of the anterior aspect of the intervertebral disk into which the implant is to be inserted, as well as to provide efficient spinal load distribution over the remainder of the implant.
- inventive methods and apparatuses were required to produce the desired external profile for the cortical bone implant. It will be recognized that, based on the instant disclosure, a substantially "D"-shaped external profile of the implant may be machined by a variety of means which vary from the precise methods disclosed herein.
- the implant with the "D" or alternately shaped internal canal being used as a key way, is fitted onto the end of a spindle which precisely matches the shape of the internal canal of the implant, thereby providing purchase for machining of the external profile of the implant.
- asymmetric generator grinding wheel attached to a cog which meshes at a known registration point with a cog to which the spindle with the implant is attached.
- the speed of rotation of the exterior of the spindle mounted implant, and the exterior of the generator wheels are designed to differ such that as the generator wheel and implant are contacted and are rotated in fixed registration, the generator surface (which is preferably an abrasive diamond plated surface), grinds bone from the external surface of the implant, to form a profile thereon defined by the asymmetric shape of the grinder wheel.
- the implant with the "D" or alternately shaped internal canal being used as a key way, is fitted onto the end of a spindle which precisely matches the shape of the internal canal of the implant, thereby providing purchase for machining of the external profile of the implant.
- the spindle is affixed to an asymmetric cam which rotates concentrically with the spindle, and therefore the implant.
- the thus mounted implant is contacted with a cutter means, such as a sharp bit having cutting edges which rotate about an adjacent axis.
- the implant mounted spindle riding on the asymmetric cam is biased to contact the rotating cutter, which thus traces a profile onto the exterior of the implant defined by the shape of the asymmetric cam.
- asymmetric cam should be understood to mean any desirable shape such that upon production of the implant, the shape thereof is defined by that of the asymmetric cam.
- FIG. 1C shows a top view of an embodiment of the implant 100 in which an external feature 120 has been inscribed onto the top 110 and bottom 111 surfaces of the implant.
- a "radius" or bevel 115 is shown on the two side and posterior edges of the implant.
- Figure ID shows a side view of the implant 100 in which the inscribed feature 120 can clearly be seen in the top 110 and bottom 111 surfaces of the implant.
- the external feature 120 has the side profile of a set of teeth, all of which angle toward the anterior face 108 of the implant.
- An outline of the bevel 115 is also evident in this view, as is the rounded posterior edge 105.
- the other end, 212 is an irregular and bone surface which, in vivo, formed part of the wall of the intrameduUary canal. Cancellous bone or other microstructure at the end 212 is removed, and both ends are ground, cut or otherwise machined to be substantially flat and parallel, to form the substantially cortical bone plug 210 shown in figure 2D.
- the canal may be retained as a substantially circular canal, and a slot 904 is machined therein to provide the necessary asymmetry to form a key way.
- FIG 4B provides a side view of one specific embodiment of the implant external profile generator 400.
- An air driven turbine within housing 401 provides a source of torque to turn a shaft 402.
- a means for cutting or grinding the external surface of the implant 410 such as an appropriately fashioned cutter or bit having a non-cutting end 403 for fixation to the shaft 402.
- a "shoulder" 405 forms a radius extending between the smaller diameter of the cutting surface 404 and the larger diameter of non-cutting surface 403.
- the cutting surface 404 is contacted with the implant blank 410, mounted on spindle 420, to which, as described above is mounted an asymmetric cam 430.
- the thus mounted implant blank is contacted with the implant blank 410, mounted on spindle 420, to which, as described above is mounted an asymmetric cam 430.
- the asymmetric cam 430 is brought into contact with the cutting surface 404, by virtue of translation in the X-plane of the carriage 442.
- the spindle 420, and thus the asymmetric cam 430 are rotated, manually or by motor driven means, through shaft 440 and handle 450 which are attached concentrically with the cam 430.
- the asymmetric cam 430 is elastically biased toward a stationary cam follower 460. In this fashion, after several revolutions of the handle 450, the shape of the asymmetric cam 430 generates the desired external profile of the implant 410 riding on the spindle 420, through contact with the rotating cutting surface 404.
- a stop screw 470 is provided.
- the stop screw 470 is set to prevent further advancement of the implant blank 410 by stopping advancement of the carriage 442 when the leading edge 471 of the stop screw comes into contact with a measuring screw 480.
- the appropriate setting of the stop screw 470 is achieved at the start of the milling process by first placing the implant 410 between the end 481 of the measuring screw 480 and an anvil 482, and tightening the measuring screw 480 until it just makes contact with the implant. In this fashion, the measuring screw 480 and anvil 482 essentially form a micrometer, with the gap being defined by the width of the implant.
- the stop cam 490 In the second position, the stop cam 490 allows the stop screw to advance the additional approximately 0.06" to allow contact of the implant 410 with the shoulder 405 of the cutting surface 404 to thereby bevel the edges of the implant 410 that are thus contacted. Accordingly, in the pre-milling setup, the stop cam 490 should be rotated such that the stop screw 470 is forced to stop the extra 0.06", following which a further processing step may be carried out in which the stop cam 490 is rotated to the second position in which the stop screw 470 is allowed to advance this additional approximately 0.06".
- FIG 4C there is provided an end-on, rear view (i.e. looking from the handle 450 toward the spindle 420) of the asymmetric cam 430, the spindle 420 and the implant 410.
- an additional feature in the asymmetric cam 430 is seen as a diminution in the thickness along three faces 431 of the asymmetric cam 430 which is a relief in the rear of the asymmetric cam 430.
- the significance of this relief 431 is that it restricts the contact of the implant 410 with the shoulder 405 to the extent defined by the relief in the rear of the asymmetric cam 430.
- the fashioning of a bevel around the edges of the implant that are inserted into the intervertebral space created by the surgeon is desired.
- a shot pin 432 is advanced into the relief 431 by means of a shot pin mover 433, thereby allowing rotation of the cam 430 only to the extent permitted by the shot pin 432 as it rides within the relief 431.
- the "shoulder" 405 contacts the leading edge 411 of the implant blank 410, thereby rounding three edges of the implant 410.
- the implant is removed from the spindle 420, turned around, and re-positioned on the spindle 420, to inscribe the bevel on three edges of the other side of the implant.
- a frontal view is provided of the spindle 420, the implant 410, the asymmetric cam 430, and the cam follower 460.
- the cam adapter 461 by means of which the cam follower 460 is affixed to the carriage 442, and by means of which the cam follower 460 maintains the cutting surfaces 404/405 in contact with the implant 410 as defined by the shape of the asymmetric cam 430.
- a part of the cross-slide 441 which is preferably biased or which may be pushed manually toward the cam follower 460.
- a side detail view is provided of the stop cam 490.
- a stop cam handle 491 is shown which allows the operator of the implant outside profile generator to fix the stop cam 490 in a first position A, and a second position B, whereby additional travel of the stop screw 470, and thereby advancement of the carriage 442, is provided in position B, of about
- a cortical bone implant 100 as shown in figure 1 having a substantially "D"-shaped external profile, and a substantially “D"- shaped internal canal is produced.
- an ellipsoid is produced by the above described methods simply by modification of the shape of the asymmetrically shaped cam 430, and the internal canal shape may be modified by drilling, routing, or broaching using a broach that tapers to any desired shape.
- the thus formed implant may be used after machining as described, followed by appropriate cleaning methods known in the art (e.g. bathing in alcohol, peroxide treatment etc.).
- an external feature on the upper surface 110, the lower surface 111, or both may take any desirable form, such as annular rings, indentations, projections, ribbing or teeth.
- teeth sloping toward the anterior aspect 108 of the implant are inscribed onto the top 110 and bottom 111 surfaces of the implant by forcing the implant through opposed broaches bearing inscribing teeth.
- the upper 110, lower 111 or both surfaces in turn may be repeatedly run, manually or by a machine-driven means, over an appropriately fashioned jaw bearing abrasive teeth such that the required profile of teeth are inscribed into the surfaces of the implant.
- the successive teeth of the jaw are incrementally raised in height such that each tooth is only required to remove a small amount of bone (about 0.004" per tooth, to a total depth of 0.015").
- the rake angle of the teeth
- the rake be sufficiently sharp as to allow the implant to bite into the implantation site, without at the same time being so sharp as to be excessively brittle.
- FIG 5 A there is provided a top view of one side of one embodiment of blades 502 for use in a broach assembly 500 for inscribing teeth into the top 110, bottom 111 or both surfaces of the implant.
- a lock-down handle 501 for clamping the assembly of blades 502 to a base 503.
- a space is formed between the opposing teeth 502 at a distance sufficient to accommodate passage of the implant therebetween, provided that the teeth abrade recesses into the top and bottom surfaces of the implant 100.
- a non-cutting surface 506 for contacting the implant 100 as it is introduced into the broach assembly 500.
- the non-cutting surface 506 acts as a type of micrometer, forcing the cutting surfaces of the teeth 502 sufficiently apart to properly engage the implant as it passes through the broach assembly 500.
- FIG 5B there is provided a side view of an implant mounting device 504 having a "D"-shaped cavity 505 into which a "D"-shaped implant may be fitted for passage through the opposing jaws of the broaching jaw apparatus 500.
- FIGS 5C-5E there is shown an alternate apparatus and method for fashioning the retention teeth in the implant.
- a carriage 510 having an appropriately dimensioned slot 520 for receiving the implant to be grooved.
- a tensioning screw 530 brings a retention arm 531 into juxtaposition with carriage housing member 532, thereby clamping the implant into position within slot 520.
- carriage housing members 532 and 533 there is aligned a guide-rod 534 for guiding the carriage containing the implant as it is raked across a blade assembly 540, over which said carriage 510 is made to pass.
- Each blade 560 has an initial non-cutting surface 561, which is approximately 0.015" below the cutting surface 562, which in combination with said plurality of blades, forms a flat loading area for implant insertion into said slot 520.
- Figure 5D provides a side view of one blade 560
- figure 5E provides an end on view of the carriage 510 as it sits above the base 550. Accordingly, the implant is inserted into the slot 520 with the carriage 510 swung up from the base 550. The carriage is then swung down into the starting position with the implant making contact with the non-cutting surfaces 561 of the plurality of blades. The implant is depressed so that it is forced snugly against the non-cutting surface, and then tensioned into place with the retention screw 530.
- FIG 6A-I there is provided a view of three different cortical bone implants according to this invention having particular geometries by way of example and not limitation.
- an implant 600 which has a height of 7 mm, a width of 11 mm, and a length of 14 mm.
- dimensions of various radii of the implant are provided.
- FIG 7 there is shown a further aspect of this invention in which an implant, either machined as described above, or prior to said machining, is further machined so as to allow stacking thereof to achieve implants of various heights.
- an implant either machined as described above, or prior to said machining, is further machined so as to allow stacking thereof to achieve implants of various heights.
- a blank cortical plug at the stage shown in figure 2D has the advantage that if breakage of the implant occurs during machining, this will likely occur prior to completion of all of machining steps.
- two implant blanks of known height are selected such that a unitary implant composed of both starting implants can be produced of a new desired height (e.g. a 6 mm high implant may be stacked with a 7 mm high implant to produce a 13 mm implant).
- an implant 900 is produced by producing two implants 901 and 902, each having a cavity or canal 903, including an asymmetric key way 904 machined therein.
- an appropriately shaped cancellous plug 905 or a plug made from another biocompatible material including but not limited to hydroxyapatite, cortical bone, synthetic materials, ceramic, optionally treated with growth factors such as bone morphogenetic protein and the like, the two implants 901 and 902 are retained in registered juxtaposition to form the implant 900.
- a method for assembling the implant of this invention from component parts is provided.
- the device as used for PLIF applications has the following dimensions similar to the following, see side view figure 8D:a width 811 of approximately 7 to 12 mm, and preferably about 9.4 to about 10 mm; a top dimension 812 of about 4 to 5 mm; a bottom dimension 813 of about 4-6 mm and preferably about 5 mm; a flat surface of 814 of about 4-7 mm, and preferably about 5.5 mm; a width 815 of about 5-7 mm and preferably about 5 mm; a curvature that defines an angle 816 of between about 60 and 75 degrees, and preferably about 67 degrees. See figure 8D: a width 811 of approximately 7 to 12 mm, and preferably about 9.4 to about 10 mm; a top dimension 812 of about 4 to 5 mm; a bottom dimension 813 of about 4-6 mm and preferably about 5 mm; a flat surface of 814 of about 4-7 mm, and preferably about 5.5 mm; a width 815 of about 5-7 mm and preferably about
- FIG. 8F A detail of one embodiment of such a ridged surface is shown in figure 8F, wherein the following dimensions are preferred: an angle 820 for each tooth of between about 30 and 40 degrees, preferably about 35 degrees; a distance between tooth crests 821 of about 1-2 mm, preferably about 1.5 mm; a tooth crest width 822 of about 0.1 to about 0.2 mm, preferably about 0.125 mm; and a tooth height 823 of between about 0.1 to about 1 mm and preferably about 0.5 mm; returning to figure 8E, the implant preferably has an anterior end width 824 of about 7-13 mm, preferably about 9- 13 mm, with a taper angle 825 from the height H of about 30 to 40 degrees, preferably about 35 degrees; an instrument attachment means, 826, such as a tapped instrument attachment hole, is provided in the posterior face of the PLIF implant; this feature is best seen from the posterior view 8G, which shows: an instrument attachment hole 826 having a diameter of about 1.5 to about 2.5 mm,
- the implant 810 is inserted on either side of lumbar intervertebral spaces to thereby stabilize and assist in fusion of adjacent lumbar vertebrae. This is accomplished by distraction of the lumbar vertebrae, removal of an appropriate amount and shape of intervertebral disc matter, and insertion of the implant 810, preferably on each side on a posterior approach, according to methods known in the art.
- the concave surface of each implant 810 is set to face inwardly, toward the center of the vertebral body, while the convex surface of the implant 810 is set to match, as much as possible, the natural external curvature of the lumbar vertebrae.
- unitary implants may be produced by appropriately sectioning and machining the anterior margin of the tibia or linea aspera of the femur.
- a left femur 1000 posterior aspect
- a left tibia 1001 anterior tibia
- the result from such sectioning is the production of a shaft, or diaphysis, of the femur 1008 or tibia 1009.
- FIG. 10 Further processing according to this aspect of the invention involves the line asper 1010 of the femur or the anterior margin of the tibia 1011, as shown in figure IOC.
- a diaphysial shaft 1012 extending as shown at 1016 to a length permitted by the length of the shaft produced by the sectioning at 1004/1005.
- the shaft comprises the natural intrameduUary canal 1013.
- the thus produced shaft is then further sectioned in a plane shown at 1014 to produce a shaft of bone removed from the natural intrameduUary canal 1013 having a cylindrical but somewhat triangular external shape.
- a cannulation 1015 may be drilled a cannulation 1015, as shown in figure 11.
- Figure 11 shows the substantially triangular shaft of substantially cortical bone 1017 produced by sectioning the shaft of the long bone down the plane 1014.
- Into the shaft of bone 1017 may be drilled a bore to produce a cannulation 1015 of appropriate dimensions.
- the cannulation 1015 may be introduced into the unitary shaft of bone 1017 or it may be introduced into sub-segments thereof by first cutting the shaft 1017 at 1035. In either case, the diameter of the cannulation 1015 should be limited such that at the narrowest portion between the cannulation and the wall of the device 1020 never falls below about 2 mm.
- sectioned at 1035 for example by mounting the shaft 1017 on a lathe and contacting the spinning shaft with a very narrow blade (i.e.
- implant blanks 1030 and 1040 are produced which may be further machined to achieve desired external and internal profiles and key way features, as described for the implant of this invention produced by alternate methods described hereinabove. Implants of any desired height, for example 5 mm to about 14 mm, may thus be produced.
- Figures 12-17 show specific embodiments of the implant of this invention produced according to this aspect of the invention. Per figures 12-17, there is provided views of five different cortical bone implants according to this invention having particular geometries by way of example and not limitation.
- view A is a top view
- view B is a side view
- view C is a detail of the grooves which angle toward the posterior aspect of the implant
- view D is a sectional view through the line A-A shown in view A.
- an osteogenic plug such as a cancellous plug
- FIG 12 there is shown an example of an implant having a height HI between about 5mm and about 9mm, a width Wl of about 11 mm, and a width W2 of about 11 mm.
- An outer dotted profile provides a means for comparing the shape of the implant produced according to this alternate manufacturing method with the external profile of the implant of figure 6.
- the implant produced according to this aspect of the invention has a substantially diamond- shaped external profile, as a result of the geometry of the starting shaft 1017 of bone stock.
- Figure 13 shows a device similar to that of figure 12, with a cancellous plug inserted therein.
- Figure 14 shows a device having a width Wl of about 14 mm and a height HI of between about 5 mm and about 14 mm.
- Figure 15 shows a device similar to that of figure 14 with a cancellous plug inserted therein.
- Figure 16 shows a device having a width Wl of about 14 mm, a width W2 of about 14 mm, and a height of between about 5 mm and 11 mm.
- Figure 17 shows a device similar to that of figure 16 having a cancellous plug inserted therein. Table I below summarizes the various features and provides examples of specific dimensions for various embodiments of the implant of this invention shown in figures 12-17:
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Abstract
Description
Claims
Priority Applications (8)
Application Number | Priority Date | Filing Date | Title |
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DE69836087T DE69836087T2 (en) | 1997-08-27 | 1998-08-27 | KORTIKALKNOCHENIMPLANTAT FOR SWIVEL FUSION TO SMITH-ROBINSON |
AU89229/98A AU756319B2 (en) | 1997-08-27 | 1998-08-27 | Cortical bone cervical Smith-Robinson fusion implant |
US09/701,933 US7048762B1 (en) | 1997-08-27 | 1998-08-27 | Elongated cortical bone implant |
EP98941086A EP1009338B1 (en) | 1997-08-27 | 1998-08-27 | Cortical bone cervical smith-robinson fusion implant |
JP2000507310A JP2002512057A (en) | 1997-08-27 | 1998-08-27 | Cortical cervical vertebra Smith-Robinson fusion implant |
CA002302315A CA2302315C (en) | 1997-08-27 | 1998-08-27 | Cortical bone cervical smith-robinson fusion implant |
US09/722,205 US7048765B1 (en) | 1997-08-27 | 2000-11-25 | Intervertebral spacers |
US12/690,072 US8291572B2 (en) | 1997-08-27 | 2010-01-19 | Multi-component cortical bone assembled implant |
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
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US92063097A | 1997-08-27 | 1997-08-27 | |
US08/920,630 | 1997-08-27 | ||
US09/701,933 US7048762B1 (en) | 1997-08-27 | 1998-08-27 | Elongated cortical bone implant |
US09/722,205 US7048765B1 (en) | 1997-08-27 | 2000-11-25 | Intervertebral spacers |
US10/375,540 US20030139815A1 (en) | 1997-08-27 | 2003-02-27 | Cortical bone-based composite implants |
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US92063097A Continuation-In-Part | 1997-08-27 | 1997-08-27 |
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US70193398A A-371-Of-International | 1997-08-27 | 1998-08-27 | |
US09/701,933 A-371-Of-International US7048762B1 (en) | 1997-08-27 | 1998-08-27 | Elongated cortical bone implant |
US09/181,353 Continuation-In-Part US6174311B1 (en) | 1998-10-28 | 1998-10-28 | Interbody fusion grafts and instrumentation |
US09/722,205 Continuation US7048765B1 (en) | 1997-08-27 | 2000-11-25 | Intervertebral spacers |
US09/870,023 Continuation-In-Part US7479160B2 (en) | 1998-10-28 | 2001-05-30 | Interbody fusion grafts and instrumentation |
US09/905,683 Continuation US20020138143A1 (en) | 1997-08-27 | 2001-07-16 | Cortical bone cervical Smith-Robinson fusion implant |
Publications (1)
Publication Number | Publication Date |
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WO1999009914A1 true WO1999009914A1 (en) | 1999-03-04 |
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Application Number | Title | Priority Date | Filing Date |
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PCT/US1998/017769 WO1999009914A1 (en) | 1997-08-27 | 1998-08-27 | Cortical bone cervical smith-robinson fusion implant |
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US (1) | US7048765B1 (en) |
WO (1) | WO1999009914A1 (en) |
Cited By (75)
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