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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0480461 (1995-06-07) |
등록번호 | US-7491205 (2009-02-17) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 84 인용 특허 : 188 |
An improved method and instrumentation for performing spinal surgery, including discectomy, interbody fusion and rigid internal fixation of the spine, from the lateral aspect of the spine is disclosed. The surgical procedure can be performed through a very small incision. The instrumentation of the
An improved method and instrumentation for performing spinal surgery, including discectomy, interbody fusion and rigid internal fixation of the spine, from the lateral aspect of the spine is disclosed. The surgical procedure can be performed through a very small incision. The instrumentation of the present invention, all of which is inserted from a lateral position into the spine in the preferred embodiment, comprises a guide pin, a distractor, an extended outer sleeve, an inner sleeve an adjustable drill and an implant driver. The distractor of the present invention is driven into the disc for spacing apart and realigning the adjacent vertebrae. It further functions as an alignment rod for inserting the extended outer sleeve which is a hollow tubular member capable of maintaining said spacing and alignment of two adjacent vertebrae and defines a protected space through which subsequent instruments which may include, but are not limited to, a drill and a diameter reducing inner sleeve may be passed, as well as a spinal implant. The remainder of the surgical procedure consisting of the removal of spinal material across the disc, fusion, and rigid internal stabilization via the implant may all be performed via the closed space within the extended outer sleeve.
What is claimed is: 1. A spinal distractor for use in spinal fusion surgery within an adult human thoracic and lumbar spine for positioning adjacent vertebral bodies of two adjacent vertebrae adjacent a disc space in selected relationship to each other, said spinal distractor comprising: a body hav
What is claimed is: 1. A spinal distractor for use in spinal fusion surgery within an adult human thoracic and lumbar spine for positioning adjacent vertebral bodies of two adjacent vertebrae adjacent a disc space in selected relationship to each other, said spinal distractor comprising: a body having a height adapted to be greater than the height of the disc space; and at least one disc penetrating extension extending from said body adapted to be inserted into the lateral aspect of the disc space from a position anterior to the transverse processes of the adjacent vertebrae, said disc penetrating extension having a portion adapted to bear against each of the adjacent endplates of the two adjacent vertebral bodies, said portion of said disc penetrating extension having a height less than the height of said body and a length that is less than the transverse width of the vertebral bodies between which said disc penetrating extension is adapted to be inserted, said length being greater than the depth of the spinal disc intermediate the two adjacent vertebral bodies between which said disc penetrating extension is adapted to be inserted. 2. The spinal distractor of claim 1, further comprising means for limiting the penetration of said disc penetrating extension into the disc space. 3. The spinal distractor of claim 2, wherein said limiting means comprises a shoulder on said body at the juncture of said disc penetrating extension and said body for preventing said body from entering the disc space. 4. The spinal distractor of claim 1, wherein said disc penetrating extension has a tapered front end to facilitate insertion of said disc penetrating extension into the disc space. 5. The spinal distractor of claim 1, wherein said body has a longitudinal passageway adapted to receive an alignment pin. 6. The spinal distractor of claim 1, wherein said body has means for engaging an extraction device for extracting said disc penetrating extension from the disc space. 7. The spinal distractor of claim 6, wherein said engaging means includes a mating member for mating with an extraction device. 8. An apparatus for use in spinal fusion surgery, said apparatus comprising: a spinal distractor for positioning adjacent vertebral bodies of two adjacent vertebrae adjacent a disc space in selected relationship to each other, said spinal distractor comprising: a body having a height greater than the height of the disc space; and at least one disc penetrating extension extending from said body for insertion into the lateral aspect of the disc space from a position anterior to the transverse processes of the adjacent vertebrae, said disc penetrating extension having a portion for bearing against each of the adjacent endplates of the two adjacent vertebral bodies, said portion of said disc penetrating extension having a height less than the height of said body and a length that is less than the transverse width of the vertebral bodies, said length being greater than the depth of the spinal disc intermediate the two adjacent vertebral bodies between which said disc penetrating extension is inserted; and a guard having an opening for providing protected access to the disc space and the adjacent vertebral bodies, said spinal distractor passing through said opening. 9. The spinal distractor and guard combination of claim 8, wherein said guard maintains said spinal distractor in coaxial alignment with the longitudinal axis of the opening. 10. The spinal distractor and guard combination of claim 9, further in combination with a spinal implant having upper and lower surfaces for bearing upon and supporting each of the two adjacent vertebral bodies, said spinal implant passing through said opening of said guard. 11. The spinal distractor, guard, and spinal implant combination of claim 10, wherein said guard maintains said spinal implant in coaxial alignment with the longitudinal axis of the opening of said guard. 12. The spinal distractor and guard combination of claim 8, further in combination with a bone removal device having a portion sized for passage through said opening of said guard for forming through said guard an implantation space across the disc space. 13. The spinal distractor, guard, and bone removal device combination of claim 12, further in combination with an implant driver having means for engaging an implant, said implant driver having a portion sized for passage through said opening of said guard for passing an implant through said guard. 14. An apparatus for use in human spinal surgery across the height of a disc space between the vertebral bodies of two adjacent vertebrae, said apparatus comprising: a guard member having a height adapted to be greater than the height of the disc space and an opening for providing protected access to the lateral aspect of the disc space and the adjacent vertebral bodies from a position anterior to the transverse processes of the adjacent vertebrae, said opening having a maximum height; and at least one disc penetrating extension extending from said guard member adapted to be inserted into the lateral aspect of the disc space from a position anterior to the transverse processes of the adjacent vertebrae, said disc penetrating extension having a portion adapted to bear against each of the adjacent endplates of the adjacent vertebral bodies, said portion of said disc penetrating extension having a height less than the height of said guard member and a length that is less than the transverse width of the vertebral bodies between which said disc penetrating extension is adapted to be inserted, said length being greater than the depth of the disc space in which said length is adapted to be inserted, said portion of said disc penetrating extension having an upper surface adapted to contact one of the adjacent endplates of the adjacent vertebral bodies and a lower surface adapted to contact the other of the adjacent endplates of the adjacent vertebral bodies at more than one point through the disc space. 15. The apparatus of claim 14, wherein said upper and lower surfaces are at least in part parallel to each other. 16. The apparatus of claim 14, wherein said guard member has an external surface at its distal end and said disc penetrating extension is at least in part coextensive with said external surface. 17. The apparatus of claim 14, further comprising a second disc penetrating extension extending from said guard member for insertion into the disc space and for bearing against the endplates of the adjacent vertebral bodies. 18. The apparatus of claim 17, wherein said disc penetrating extensions are diametrically opposed to each other. 19. The apparatus of claim 17, wherein said disc penetrating extensions have the same height. 20. An apparatus for use in human spinal surgery across a disc space between the vertebral bodies of two adjacent vertebrae, comprising: a guard member having a height greater than the height of the disc space and an opening for providing protected access to the lateral aspect of the disc space and the adjacent vertebral bodies from a position anterior to the transverse processes of the adjacent vertebrae, said opening having a maximum height; and at least two disc penetrating extensions extending from said guard member for insertion into the lateral aspect of the disc space from a position anterior to the transverse processes of the adjacent vertebrae, said disc penetrating extensions having a portion for bearing against each of the adjacent endplates of the adjacent vertebral bodies, said portion of said disc penetrating extensions having a height less than the height of said guard member and a length that is less than the transverse width of the vertebral bodies, said length being greater than the depth of the disc space, said portion of said disc penetrating extensions having an upper surface adapted to contact one of the adjacent endplates of the adjacent vertebral bodies and a lower surface adapted to contact the other of the adjacent endplates of the adjacent vertebral bodies at more than one point through the disc space, said disc penetrating extensions being of a different height. 21. An apparatus for use in human spinal surgery across a disc space between the vertebral bodies of two adjacent vertebrae, comprising: a guard member having a height greater than the height of the disc space and an opening for providing protected access to the lateral aspect of the disc space and the adjacent vertebral bodies from a position anterior to the transverse processes of the adjacent vertebrae, said opening having a maximum height; and at least two disc penetrating extensions extending from said guard member for insertion into the lateral aspect of the disc space from a position anterior to the transverse processes of the adjacent vertebrae, said disc penetrating extensions having a portion for bearing against each of the adjacent endplates of the adjacent vertebral bodies, said portion of said disc penetrating extensions having a height less than the height of said guard member and a length that is less than the transverse width of the vertebral bodies, said length being greater than the depth of the disc space, said portion of said disc penetrating extensions having an upper surface adapted to contact one of the adjacent endplates of the adjacent vertebral bodies and a lower surface adapted to contact the other of the adjacent endplates of the adjacent vertebral bodies at more than one point through the disc space, said disc penetrating extensions being of a different length. 22. The apparatus of claim 14, wherein said portion of said disc penetrating extension has a height between said upper and lower surfaces that approximates the height of the normal disc space between the adjacent vertebral bodies. 23. The apparatus of claim 14, wherein said guard member conforms at least in part to the exterior surface of the vertebral bodies of the lateral aspect of the adjacent vertebral bodies. 24. The apparatus of claim 23, wherein said upper and lower surfaces are at least in part parallel to each other. 25. The apparatus of claim 23, further comprising a second disc penetrating extension extending from said guard member for insertion into the disc space and for bearing against the endplates of the adjacent vertebral bodies. 26. The apparatus of claim 25, wherein said disc penetrating extensions are diametrically opposed to each other. 27. The apparatus of claim 25, wherein said disc penetrating extensions have the same height. 28. The apparatus of claim 25, wherein said disc penetrating extensions are of a different height. 29. The apparatus of claim 25, wherein said disc penetrating extensions are of a different length. 30. The apparatus of claim 23, wherein said portion of said disc penetrating extension has a height between said upper and lower surfaces that approximates the height of the normal disc space between the adjacent vertebral bodies. 31. The apparatus of claim 14, further comprising means for penetrating the two adjacent vertebral bodies. 32. The apparatus of claim 31, wherein said penetrating means includes teeth for insertion into the spine. 33. The apparatus of claim 31, wherein said penetrating means includes at least one prong for insertion into the spine. 34. The apparatus of claim 14, further comprising a removable inner sleeve. 35. The apparatus of claim 14, further comprising means for limiting the depth of penetration of said disc penetrating extension into the disc space. 36. The apparatus of claim 14, wherein said guard member comprises a hollow tube. 37. An apparatus for use in human spinal surgery across a disc space between the vertebral bodies of two adjacent vertebrae, comprising: a guard member including a hollow tube having a height greater than the height of the disc space and an opening for providing protected access to the lateral aspect of the disc space and the adjacent vertebral bodies from a position anterior to the transverse processes of the adjacent vertebrae, said opening having a maximum height, said hollow tube having a detachable distal end portion; and at least one disc penetrating extension extending from said guard member for insertion into the lateral aspect of the disc space from a position anterior to the transverse processes of the adjacent vertebrae, said disc penetrating extension having a portion for bearing against each of the adjacent endplates of the adjacent vertebral bodies, said portion of said disc penetrating extension having a height less than the height of said guard member and a length that is less than the transverse width of the vertebral bodies, said length being greater than the depth of the disc space, said portion of said disc penetrating extension having an upper surface adapted to contact one of the adjacent endplates of the adjacent vertebral bodies and a lower surface adapted to contact the other of the adjacent endplates of the adjacent vertebral bodies at more than one point through the disc space. 38. The apparatus of claim 14, wherein said disc penetrating extension has a tapered leading end to facilitate placement of said disc penetrating extension into the disc space. 39. The apparatus of claim 14 in combination with a bone removal device having a portion sized for passage through said opening of said guard for forming through said opening of said guard member an implantation space across the disc space. 40. The apparatus of claim 39 in combination with an implant driver sized in part for passage through said opening of said guard for passing an implant through said guard member and into the disc space. 41. The apparatus of claim 14 in combination with a spinal distractor sized for passage through said guard member, said spinal distractor having a body and a disc penetrating member extending from said body and into the disc space between the two adjacent vertebral bodies for bearing against the adjacent endplates of the two adjacent vertebral bodies. 42. The apparatus of claim 41, wherein said disc penetrating member has a tapered leading end to facilitate placement of said disc penetrating member into the disc space. 43. The apparatus of claim 14 in combination with a tap for insertion through said guard member for tapping the two adjacent vertebral bodies. 44. An apparatus for use in human spinal surgery across a disc space between the vertebral bodies of two adjacent vertebrae, comprising: a guard member having a height greater than the height of the disc space and an opening for providing protected access to the lateral aspect of the disc space and the adjacent vertebral bodies from a position anterior to the transverse processes of the adjacent vertebrae, said opening having a maximum height; at least one disc penetrating extension extending from said guard member for insertion into the lateral aspect of the disc space from a position anterior to the transverse processes of the adjacent vertebrae, said disc penetrating extension having a portion for bearing against each of the adjacent endplates of the adjacent vertebral bodies, said portion of said disc penetrating extension having a height less than the height of said guard member and a length that is less than the transverse width of the vertebral bodies, said length being greater than the depth of the disc space, said portion of said disc penetrating extension having an upper surface adapted to contact one of the adjacent endplates of the adjacent vertebral bodies and a lower surface adapted to contact the other of the adjacent endplates of the adjacent vertebral bodies at more than one point through the disc space; and an extractor coupler having one end adapted to couple with said guard member and an opposite end adapted to couple with an extraction device. 45. An apparatus for use in human interbody spinal surgery across a disc space between the vertebral bodies of two adjacent vertebrae, comprising: a guard member having a proximal end, a distal end, a height greater than the height of the disc space, and at least one passageway adapted to permit the passage of a bone removal device therethrough for providing protected access to the disc space and the adjacent vertebral bodies, said passage having a maximum height; and at least one disc penetrating extension extending from said distal end of said guard member for insertion into the disc space, said disc penetrating extension being separable from said proximal end of said guard, said disc penetrating extension having a portion for bearing against each of the adjacent endplates of the adjacent vertebral bodies, said portion of said disc penetrating extension having an upper surface adapted to contact one of the adjacent endplates of the adjacent vertebral bodies and a lower surface adapted to contact the other of the adjacent endplates of the adjacent vertebral bodies intermediate the two adjacent vertebral bodies between which said disc penetrating extension is inserted. 46. The apparatus of claim 20, wherein said upper and lower surfaces are at least in part parallel to each other. 47. The apparatus of claim 20, wherein said guard member has an external surface at its distal end and said disc penetrating extensions are at least in part coextensive with said external surface. 48. The apparatus of claim 20, wherein said disc penetrating extensions are diametrically opposed to each other. 49. The apparatus of claim 20, wherein said disc penetrating extensions are of a different length. 50. The apparatus of claim 20, wherein said portion of said disc penetrating extension has a height between said upper and lower surfaces that approximates the height of the normal disc space between the adjacent vertebral bodies. 51. The apparatus of claim 20, wherein said guard member conforms at least in part to the exterior surface of the vertebral bodies of the lateral aspect of the adjacent vertebral bodies. 52. The apparatus of claim 20, further comprising means for penetrating the two adjacent vertebral bodies. 53. The apparatus of claim 52, wherein said penetrating means includes teeth for insertion into the spine. 54. The apparatus of claim 52, wherein said penetrating means includes at least one prong for insertion into the spine. 55. The apparatus of claim 20, further comprising a removable inner sleeve. 56. The apparatus of claim 20, further comprising means for limiting the depth of penetration of said disc penetrating extensions into the disc space. 57. The apparatus of claim 20, wherein said guard member comprises a hollow tube. 58. The apparatus of claim 57, wherein said hollow tube has a detachable distal end portion. 59. The apparatus of claim 20, wherein said disc penetrating extensions have a tapered leading end to facilitate placement of said disc penetrating extensions into the disc space. 60. The apparatus of claim 20 in combination with a bone removal device having a portion sized for passage through said opening of said guard for forming through said opening of said guard member an implantation space across the disc space. 61. The apparatus of claim 20 in combination with an implant driver sized in part for passage through said opening of said guard for passing an implant through said guard member and into the disc space. 62. The apparatus of claim 20 in combination with a spinal distractor sized for passage through said guard member, said spinal distractor having a body and a disc penetrating member extending from said body and into the disc space between the two adjacent vertebral bodies for bearing against the adjacent endplates of the two adjacent vertebral bodies. 63. The apparatus of claim 62, wherein said disc penetrating member has a tapered leading end to facilitate placement of said disc penetrating member into the disc space. 64. The apparatus of claim 20 in combination with a tap for insertion through said guard member for tapping the two adjacent vertebral bodies. 65. The apparatus of claim 20, further comprising an extractor coupler having one end adapted to couple with said guard member and an opposite end adapted to couple with an extraction device. 66. The apparatus of claim 21, wherein said upper and lower surfaces are at least in part parallel to each other. 67. The apparatus of claim 21, wherein said guard member has an external surface at its distal end and said disc penetrating extensions are at least in part coextensive with said external surface. 68. The apparatus of claim 20, wherein said disc penetrating extensions have the same height. 69. The apparatus of claim 21, wherein said disc penetrating extensions are diametrically opposed to each other. 70. The apparatus of claim 21, wherein said portion of said disc penetrating extension has a height between said upper and lower surfaces that approximates the height of the normal disc space between the adjacent vertebral bodies. 71. The apparatus of claim 21, wherein said guard member conforms at least in part to the exterior surface of the vertebral bodies of the lateral aspect of the adjacent vertebral bodies. 72. The apparatus of claim 21, further comprising means for penetrating the two adjacent vertebral bodies. 73. The apparatus of claim 72, wherein said penetrating means includes teeth for insertion into the spine. 74. The apparatus of claim 72, wherein said penetrating means includes at least one prong for insertion into the spine. 75. The apparatus of claim 21, further comprising a removable inner sleeve. 76. The apparatus of claim 21, further comprising means for limiting the depth of penetration of said disc penetrating extensions into the disc space. 77. The apparatus of claim 21, wherein said guard member comprises a hollow tube. 78. The apparatus of claim 77, wherein said hollow tube has a detachable distal end portion. 79. The apparatus of claim 21, wherein said disc penetrating extensions have a tapered leading end to facilitate placement of said disc penetrating extensions into the disc space. 80. The apparatus of claim 21 in combination with a bone removal device having a portion sized for passage through said opening of said guard for forming through said opening of said guard member an implantation space across the disc space. 81. The apparatus of claim 21 in combination with an implant driver sized in part for passage through said opening of said guard for passing an implant through said guard member and into the disc space. 82. The apparatus of claim 21 in combination with a spinal distractor sized for passage through said guard member, said spinal distractor having a body and a disc penetrating member extending from said body and into the disc space between the two adjacent vertebral bodies for bearing against the adjacent endplates of the two adjacent vertebral bodies. 83. The apparatus of claim 82, wherein said disc penetrating member has a tapered leading end to facilitate placement of said disc penetrating member into the disc space. 84. The apparatus of claim 21 in combination with a tap for insertion through said guard member for tapping the two adjacent vertebral bodies. 85. The apparatus of claim 21, further comprising an extractor coupler having one end adapted to couple with said guard member and an opposite end adapted to couple with an extraction device. 86. The apparatus of claim 37, wherein said upper and lower surfaces are at least in part parallel to each other. 87. The apparatus of claim 37, wherein said guard member has an external surface at its distal end and said disc penetrating extension is at least in part coextensive with said external surface. 88. The apparatus of claim 37, further comprising a second disc penetrating extension extending from said guard member for insertion into the disc space and for bearing against the endplates of the adjacent vertebral bodies. 89. The apparatus of claim 88, wherein said disc penetrating extensions are diametrically opposed to each other. 90. The apparatus of claim 88, wherein said disc penetrating extensions have the same height. 91. The apparatus of claim 88, wherein said disc penetrating extensions are of a different height. 92. The apparatus of claim 88, wherein said disc penetrating extensions are of a different length. 93. The apparatus of claim 37, wherein said portion of said disc penetrating extension has a height between said upper and lower surfaces that approximates the height of the normal disc space between the adjacent vertebral bodies. 94. The apparatus of claim 37, wherein said guard member conforms at least in part to the exterior surface of the vertebral bodies of the lateral aspect of the adjacent vertebral bodies. 95. The apparatus of claim 94, wherein said upper and lower surfaces are at least in part parallel to each other. 96. The apparatus of claim 94, further comprising a second disc penetrating extension extending from said guard member for insertion into the disc space and for bearing against the endplates of the adjacent vertebral bodies. 97. The apparatus of claim 96, wherein said disc penetrating extensions are diametrically opposed to each other. 98. The apparatus of claim 96, wherein said disc penetrating extensions have the same height. 99. The apparatus of claim 96, wherein said disc penetrating extensions are of a different height. 100. The apparatus of claim 96, wherein said disc penetrating extensions are of a different length. 101. The apparatus of claim 94, wherein said portion of said disc penetrating extension has a height between said upper and lower surfaces that approximates the height of the normal disc space between the adjacent vertebral bodies. 102. The apparatus of claim 37, further comprising means for penetrating the two adjacent vertebral bodies. 103. The apparatus of claim 102, wherein said penetrating means includes teeth for insertion into the spine. 104. The apparatus of claim 102, wherein said penetrating means includes at least one prong for insertion into the spine. 105. The apparatus of claim 37, further comprising a removable inner sleeve. 106. The apparatus of claim 37, further comprising means for limiting the depth of penetration of said disc penetrating extension into the disc space. 107. The apparatus of claim 37, wherein said disc penetrating extension has a tapered leading end to facilitate placement of said disc penetrating extension into the disc space. 108. The apparatus of claim 37 in combination with a bone removal device having a portion sized for passage through said opening of said guard for forming through said opening of said guard member an implantation space across the disc space. 109. The apparatus of claim 37 in combination with an implant driver sized in part for passage through said opening of said guard for passing an implant through said guard member and into the disc space. 110. The apparatus of claim 37 in combination with a spinal distractor sized for passage through said guard member, said spinal distractor having a body and a disc penetrating member extending from said body and into the disc space between the two adjacent vertebral bodies for bearing against the adjacent endplates of the two adjacent vertebral bodies. 111. The apparatus of claim 110, wherein said disc penetrating member has a tapered leading end to facilitate placement of said disc penetrating member into the disc space. 112. The apparatus of claim 37 in combination with a tap for insertion through said guard member for tapping the two adjacent vertebral bodies. 113. The apparatus of claim 37, further comprising an extractor coupler having one end adapted to couple with said guard member and an opposite end adapted to couple with an extraction device. 114. The apparatus of claim 45, wherein said upper and lower surfaces are at least in part parallel to each other. 115. The apparatus of claim 45, wherein said guard member has an external surface at its distal end and said disc penetrating extension is at least in part coextensive with said external surface. 116. The apparatus of claim 45, further comprising a second disc penetrating extension extending from said guard member for insertion into the disc space and for bearing against the endplates of the adjacent vertebral bodies. 117. The apparatus of claim 116, wherein said disc penetrating extensions are diametrically opposed to each other. 118. The apparatus of claim 116, wherein said disc penetrating extensions have the same height. 119. The apparatus of claim 116, wherein said disc penetrating extensions are of a different height. 120. The apparatus of claim 116, wherein said disc penetrating extensions are of a different length. 121. The apparatus of claim 45, wherein said portion of said disc penetrating extension has a height between said upper and lower surfaces that approximates the height of the normal disc space between the adjacent vertebral bodies. 122. The apparatus of claim 45, wherein said guard member conforms at least in part to the exterior surface of the vertebral bodies of the lateral aspect of the adjacent vertebral bodies. 123. The apparatus of claim 122, wherein said upper and lower surfaces are at least in part parallel to each other. 124. The apparatus of claim 122, further comprising a second disc penetrating extension extending from said guard member for insertion into the disc space and for bearing against the endplates of the adjacent vertebral bodies. 125. The apparatus of claim 124, wherein said disc penetrating extensions are diametrically opposed to each other. 126. The apparatus of claim 124, wherein said disc penetrating extensions have the same height. 127. The apparatus of claim 124, wherein said disc penetrating extensions are of a different height. 128. The apparatus of claim 124, wherein said disc penetrating extensions are of a different length. 129. The apparatus of claim 122, wherein said portion of said disc penetrating extension has a height between said upper and lower surfaces that approximates the height of the normal disc space between the adjacent vertebral bodies. 130. The apparatus of claim 45, further comprising means for penetrating the two adjacent vertebral bodies. 131. The apparatus of claim 130, wherein said penetrating means includes teeth for insertion into the spine. 132. The apparatus of claim 130, wherein said penetrating means includes at least one prong for insertion into the spine. 133. The apparatus of claim 45, further comprising means for limiting the depth of penetration of said disc penetrating extension into the disc space. 134. The apparatus of claim 45, wherein said disc penetrating extension has a tapered leading end to facilitate placement of said disc penetrating extension into the disc space. 135. The apparatus of claim 45 in combination with a bone removal device having a portion sized for passage through said passageway of said guard for forming through said passageway of said guard member an implantation space across the disc space. 136. The apparatus of claim 45 in combination with an implant driver sized in part for passage through said passageway of said guard for passing an implant through said guard member and into the disc space. 137. The apparatus of claim 45 in combination with a spinal distractor sized for passage through said guard member, said spinal distractor having a body and a disc penetrating member extending from said body and into the disc space between the two adjacent vertebral bodies for bearing against the adjacent endplates of the two adjacent vertebral bodies. 138. The apparatus of claim 137, wherein said disc penetrating member has a tapered leading end to facilitate placement of said disc penetrating member into the disc space. 139. The apparatus of claim 45 in combination with a tap for insertion through said guard member for tapping the two adjacent vertebral bodies. 140. The apparatus of claim 45, further comprising an extractor coupler having one end adapted to couple with said guard member and an opposite end adapted to couple with an extraction device. 141. The apparatus of claim 45, wherein said portion of said disc penetrating extension has a height less than the height of said passage. 142. A spinal instrument assembly, comprising: a central distractor having a distractor tip coupled to a shaft, said distractor tip having upper and lower distraction surfaces defining a distraction height therebetween to maintain distraction of a spinal disc space; a guide sleeve housing having a distal portion and a proximal portion, said guide sleeve housing defining a working channel in which said central distractor is centrally located, wherein said guide sleeve housing is positionable in an operative position with respect to the spinal disc space; and a guide sleeve having a distal end and a proximal end, said distal end of said guide sleeve removably engageable to said guide sleeve housing. 143. The instrument assembly of claim 142, wherein said central distractor is withdrawable from the spinal disc space and said guide sleeve housing when said guide sleeve housing is in said operative position. 144. The instrument assembly of claim 142, wherein: said guide sleeve has a first length extending proximally from said guide sleeve housing when engaged thereto; said guide sleeve housing has a second length extending proximally from the operative site; and a ratio of said first length to said second length is more than about 2:1. 145. The instrument assembly of 144, wherein said ratio is less than about 10:1. 146. The apparatus of claim 141, wherein said at least one disc penetrating extension has a length that is less than the transverse width of the vertebral bodies, said length being greater than the depth of the spinal disc intermediate the two adjacent vertebral bodies between which said disc penetrating extension is inserted.
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