US20060089649A1 - Surgical instruments and method of using same - Google Patents

Surgical instruments and method of using same Download PDF

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US20060089649A1
US20060089649A1 US10/973,481 US97348104A US2006089649A1 US 20060089649 A1 US20060089649 A1 US 20060089649A1 US 97348104 A US97348104 A US 97348104A US 2006089649 A1 US2006089649 A1 US 2006089649A1
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portion
surgical instrument
method
kit
device guide
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US10/973,481
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Peter Ullrich
Charanpreet Bagga
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Orthovita Inc
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VITA LICENSING
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Priority to US10/973,481 priority Critical patent/US20060089649A1/en
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Publication of US20060089649A1 publication Critical patent/US20060089649A1/en
Assigned to LB I GROUP INC. reassignment LB I GROUP INC. SECURITY AGREEMENT Assignors: VITA LICENSING, INC.
Assigned to ORTHOVITA, INC. reassignment ORTHOVITA, INC. MERGER (SEE DOCUMENT FOR DETAILS). Assignors: VITA LICENSING, INC.
Assigned to VITA SPECIAL PURPOSE CORP., ORTHOVITA INTERNATIONAL SERVICES, INC., ORTHOVITA, INC. (FOR ITSELF AND AS SUCCESSOR BY MERGER TO VITA LICENSING, INC. AND PARTISYN CORP.) reassignment VITA SPECIAL PURPOSE CORP. RELEASE OF LIEN IN INTELLECTUAL PROPERTY Assignors: LB I GROUP INC.
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/16Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans
    • A61B17/17Guides or aligning means for drills, mills, pins or wires
    • A61B17/1739Guides or aligning means for drills, mills, pins or wires specially adapted for particular parts of the body
    • A61B17/1757Guides or aligning means for drills, mills, pins or wires specially adapted for particular parts of the body for the spine
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/16Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans
    • A61B17/1662Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans for particular parts of the body
    • A61B17/1671Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans for particular parts of the body for the spine

Abstract

Certain preferred embodiments of the present invention relate to surgical instruments particularly suitable for preparing vertebral endplates during spinal interbody surgical procedures. Methods of using such instruments are also disclosed. In one embodiment, the surgical instrument includes a first portion which serves as a rasp, and a second portion serving as a device guide for a reaming device.

Description

    FIELD OF THE INVENTION
  • This invention relates to surgical instruments and methods of using such instruments. The instruments are particularly suitable for preparing vertebral endplates during spinal interbody implant procedures.
  • BACKGROUND OF THE INVENTION
  • In the simplest terms, the spine is a column made of vertebrae and discs. The vertebrae provide the support and structure of the spine while the spinal discs, located between the vertebrae, act like cushions or “shock absorbers.” These discs also contribute to the flexibility and motion of the spinal column. Over time, the discs may become diseased, infected, develop deformities such as tears/cracks, or simply lose structural integrity, for example bulge or flatten. These impaired discs can affect the anatomical functions of the vertebrae, due to the resultant lack of proper biomechanical support, and are often associated with chronic back pain. Chronic back pain afflicts a large percentage of the world's population and often interferes with one's ability participate in regular daily activities.
  • Several surgical techniques have been developed to address spinal defects, such as disc degeneration and/or deformity. Spinal fusion has become a recognized surgical procedure for restoring biomechanical and anatomical integrity to the spine. Spinal fusion techniques involve the removal, or partial removal, of at least one intervertebral disc and preparation of the disc space for receiving an implant by shaping the exposed vertebral endplates, an implant is then inserted between the opposing endplates. Vertebral endplates can have complex shapes due to various anatomical and biological factors. For example, a vertebral endplate may be concave in some portions. The vertebral endplates may also have surface irregularities and even bony protuberances, or osteophytes, which can be difficult to remove. These osteophytes, found predominately about the posterior-lateral portions of the endplate, are especially problematic as they can painfully impinge on nearby anatomical structures and reduce the useable implant-seating surface to primarily the medial-anterior portion of the disc space. This reduction in seating area may compromise biomechanical integrity by reducing the area in which to distribute mechanical forces, thus increasing the apparent stress experienced by both the implant and vertebral endplate.
  • Proper endplate preparation is important to successful spinal fusion surgery procedures. To achieve fusion, it is generally necessary to expose bleeding endplate bone stock. This initiates the biological healing process of the bone and encourages implant integration. The surgeon must also conform or shape the endplate to, at least, approximate the implant geometry thereby ensuring proper seating of the spinal implant in the disc space. One of the many challenges of preparing the endplates is the discrepancy between the shape of the endplates and the implant. While the spinal endplates may have a complex surface topography, the mating surfaces of spinal implants are generally flat. Thus, the surgeon may initially desire to provide the maximum surface area for proper implant seating by simply razing enough endplate bone stock to ensure a relatively flat surface.
  • In addition to maximizing the surface area available for implant seating, the surgeon should also preserve as much surface vertebral endplate bone as possible by minimizing the amount of bone removed since this subchondral bone is generally much stronger than the underlying cancellous bone. Preservation of the endplate bone stock ensures biomechanical integrity of the endplates and minimizes the risk of implant subsidence. Thus, the surgeon should provide for optimal seating of the implant while still maximizing the amount of available securing endplate bone stock.
  • The surgeon may rely on a number of instruments during complex spinal surgical procedures. With the advent of spinal fusion surgery and the development of spinal implants, there is an increasing need for complimentary instruments. These complimentary instruments should reduce the “instrument load” on the surgeon while increasing the efficiency and precision of the surgical procedure. These instruments should also compliment the final size and shape of the implant to be used; again increasing the efficiency of the surgical procedure, while decreasing the overall need for multiple instruments. While there are many instruments that may be required for such complex spinal surgical procedures, there is a need in the art for a single instrument suitable for preparing vertebral endplates to properly receive a spinal implant for spinal surgery procedures.
  • Methods of endplate preparation have traditionally been performed “by-hand” using a variety of instruments. Traditional free-hand instruments such as box chisels, osteotomes, curettes, drills, milling instruments and the like, which aid in shaping the endplate, also aggressively, and sometimes unevenly, remove bone. Even when used by the most skilled surgeons, these traditional free-hand instruments may prove difficult to control in order to achieve uniform and reproducible results during endplate preparation. The surgeon must also avoid damaging nearby anatomical structures, such as the spinal cord or vertebral arteries. These previously known “by-hand” methods and instruments are generally cumbersome, lack precision, and may lead to the removal of excessive amounts of vertebral endplate bone stock.
  • None of these approaches provide a single multi-purpose surgical instrument, as is now taught, for allowing controlled and precise preparation of vertebral endplates while preserving endplate bone stock. Thus, there is a need in the art for a single spinal surgical instrument which reduces the instrument load and the number of operating steps for a surgeon, improves visualization of the disc space while minimizing exposure of the disc space, and improves surgical safety by increasing the precision of complimentary free-hand instruments while reducing the risk of damage to nearby anatomical structures.
  • There is a further need in the art for an instrument for the improved preparation of spinal endplates, especially one which can be used to prepare the posterior-lateral regions of the endplates and/or the entire endplate. There is also a need for a single instrument that can be flipped about its longitudinal axis outside of the disc space, and re-inserted to address features of both the left and right posterior-lateral regions of a vertebral endplate. For example, a single multi-purpose instrument capable of preparing both the lateral and contra-lateral sides of a vertebral endplate. Still further there is a need for a single instrument capable of preparing both the left and right posterior-lateral regions of vertebral endplates and for removing osteophytes.
  • SUMMARY OF THE INVENTION
  • The present invention is directed to surgical instruments and methods of using such instruments. The instruments are particularly suitable in spinal surgeries for preparing a vertebral endplate during an anterior approach procedure.
  • Certain preferred embodiments of the present invention provide for precise and controlled preparation of vertebral endplates using free-hand surgical instruments. Certain preferred embodiments of the present invention also provide for improved safety in addressing features of the vertebral endplate posterior-lateral regions, including the removal of posterior-lateral osteophytes. Still other preferred embodiments allow for improved visualization of the disc space during surgical procedures while minimizing exposure of the operating space.
  • Certain embodiments of the present invention include a surgical instrument having both a rasp and a guide body. The instrument has a generally D-shaped first portion which is longitudinally offset from, and connected to, a generally rectangular shaped second portion. The first portion serves as a rasp, while the second portion includes an access port that serves as a device guide. As used herein, a device for use in accordance with certain embodiments of the present invention may be, without limitation, any free-hand instruments including a reamer, box chisel, osteotome, curette, drill, milling instrument or the like, which aid in preparing vertebral endplates. The second portion may also include any number of housings or structures capable of guiding a device such as, for example and without limitation, through-holes, access ports, frames, carriages, tracks, etc. Still further, the device may be controllably advanced along the longitudinal axis of the second portion. The second portion may further include a threaded opening for attachment to a threaded holder.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • FIG. 1A shows a perspective view of an embodiment of one surgical instrument of the invention (10) having a generally D-shaped first portion (20) and a second portion (30). FIG. 1B further depicts a top view of the same embodiment. Lastly, FIG. 1C depicts a side view of the embodiment showing a transverse aperture (50) of the D-shaped portion (20). FIG. 2A is a perspective view of an embodiment of the surgical instrument (10) having a contact member (90). FIG. 2B further depicts an embodiment having a contact member only on the upper surface, while FIG. 2C depicts contact members (90) on both the upper and lower surfaces.
  • FIG. 3A depicts a top view of an embodiment of the surgical instrument (10) configured to accept a reamer (200) though device guide (80). FIG. 3B depicts a side view of the surgical instrument (10) showing visualization of the reamer through the transverse aperture (50).
  • FIG. 4 illustrates a perspective view of an embodiment of the surgical instrument (10) configured to accept a box chisel (300).
  • DETAILED DESCRIPTION OF ILLUSTRATIVE EMODIMENTS
  • Certain presently preferred aspects of the present invention may be used for the preparation of spinal endplates for a variety of interbody implant procedures. These procedures include, but are not limited to, spinal fusion, vertebral body replacement, and artificial disc procedures. Thus, certain embodiments of the present invention are directed to an instrument and method for use in spinal surgery procedures. Certain embodiments of the surgical instrument are particularly suitable for procedures in which an implant is placed between adjacent vertebrae, such as in spinal fusion procedures, or those which use an implant to replace all or part of one or more vertebral bodies such as during vertebral body replacement procedures. For either procedure, stability of the implant is a major concern, thus implant loosening and/or motion should be avoided as either condition may impair implant performance, result in anatomical damage, present substantial pain to the patient, and may result in implant expulsion from the disc space. As such, proper preparation of the disc space and, particularly, the spinal endplates is critical.
  • In accordance with certain embodiments of the present invention, a surgical instrument is provided comprising both a rasp and a device guide. As shown in FIG. 1, the instrument (10) includes a generally D-shaped first portion (20) which is longitudinally offset, and connected, to a generally rectangular shaped second portion (30). The posterior-lateral-most aspect of the first portion (20) is rounded such that its contour matches the posterior-lateral aspects of the interbody implant for good conformity. Both the top and bottom surfaces of the first portion include rasp (40) for endplate preparation. Alternatively, first portion (20) may have a rasp (40) on either the top or bottom surfaces. Rasp (40) may cover any degree of the top and/or bottom surfaces, but preferably cover the entire top and bottom surface of the first portion. The first portion (20) also includes an aperture (50) that extends the entire transverse length of the first portion (20), thus the first portion may be predominantly hollow. Alternatively, first portion 20 may include a plurality of apertures (50) having uniform or varied size/shape. These apertures (50) aid in the fluoroscopic visualization of a device, such as reamer (200), during a surgical procedure as either an embodiment of the surgical instrument of the present invention or a reamer is advanced into the disc space. The second portion (30) includes a threaded opening (60) on the most proximal end surface, or front face, (70) for attachment to a threaded holder (not shown). The second portion (30) also includes an access port that serves as a device guide (80) adjacent the threaded opening (60). Device guide (80) is particularly useful for controlling the trajectory of free-hand devices, thus increasing the precision of the surgical procedure while also providing for controlled removal of bone in the posterior-lateral regions. First portion (20) may be substantially planar or substantially cylindrical. First portion (20) may also act as a stabilizing element in reducing vibration, and other unwanted movement, while improving free-hand instrument balance and precision. First portion (20), including rasp portion (40), may further serve as a standard rasp for initial preparation and roughening of the vertebral endplate surface with minimal bone removal. The surgeon may therefore choose to skip an initial rasping step using a standard free-hand rasp, and may instead use certain embodiments of the present invention for rasping as well as targeted bone removal. The first portion and/or second portion may also have at least one graded marking or measurement, to gauge the depth of penetration into the disc space.
  • Certain embodiments of the present invention may also include at least one raised shoulder or contact member (90). The contact members may be any variety of sizes or shapes, so designed to abut at least one adjacent vertebral body. The contact members may also be slidably and/or rotatably connected to second portion (40). Still further, contact member (90) may be extendable to abut a plurality of adjacent vertebrae, as needed. Contact member (90) may be particularly useful in preventing or minimizing damage to nearby anatomical structures.
  • Preferred embodiments of the present invention are particularly suited for shaping the lateral aspects of the posterior portion of the endplate. The instruments of the present invention can be used with a variety of implants. In particular, those implants having a generally annular shape with rounded corners, for example elliptical or “D” shaped, may be used in accordance with the present invention. In still other preferred embodiments of the present invention device guide (80) may be used with a reamer. In use, a reamer (200) is inserted through the device guide (80) and used to precisely shape the lateral aspects of the posterior portion of the endplate to match the corresponding geometry of the implant. The reamer also aids in the removal of posterior osteophytes and may be provided with a depth control feature such as collet or shoulder to prevent the reamer from breaching the disc space and damaging nearby anatomical structures. For the remainder of the endplate preparation, the rasp portion (40) of the instrument (10) is used. Thus, the present invention allows easy and precise reaming of the lateral corners of the posterior endplate, while at the same time provides a rasp for preparing the remainder of the endplate. The instrument can be flipped 180° about the longitudinal axis of device guide (80) (an imaginary line which runs orthogonal to the front face (70) of the instrument (10) to the distal end of the instrument and would run parallel to the longitudinal centerline of an inserted reamer device). In this manner, the instrument can first be used to prepare the left side of the endplate, removed from the disc space, rotated 180°, and re-inserted to the disc space to prepare the right side of the endplate. This “flipping” action is particularly convenient in cases where there are posterior-lateral osteophytes which require removal prior to preparing the disc space. Thus, certain preferred embodiments of the present invention can be flipped to remove osteophytes on both sides of the endplate, then used to properly ream and prepare the disc space.
  • In certain embodiments of the present invention, the second portion (30) may also include a threaded opening (60) on the most proximal end surface, or front face, (70) for attachment to a threaded holder (not shown). Still further, second portion (30) may be removably attached to a holder by a variety of engagement structures including, but not limited to, interlocking components or snug-fit mating components. In other embodiments, the present invention is integral with a holder (not shown). And yet in other embodiments, the first portion (20), second portion (30), and holder are all modular components that are assembled during surgery.
  • In still other embodiments of the present invention, second portion may also include any number of housings or structures capable of guiding a device such as, for example and without limitation, through-holes, access ports, frames, carriages, tracks, etc. Embodiments of device guide (80) may be any number of shapes including, circular, rectangular, irregular, or custom shaped to particular device. Still further, the device may be controllably advanced along the longitudinal axis of the second portion. The second portion may further have any number of mechanisms or structures which facilitate controllable device advancement therefrom. For example, and without limitation, the second portion (30) may contain a threaded access port (80) to accept a threaded reamer; a track, carriage or frame that may be controllably extended from the second portion; an access port (80) having an internal ratchet or other stop-motion mechanism operatively engaged with a reamer; and/or a telescoping access port (80). Thus, second portion (30) may provide for controlled reamer (200) advancement, and controlled reaming depth, into the disc space. Controlled depth of reaming may be particularly useful in preventing, minimizing or even eliminating damage to the surrounding anatomical structures. An alternate embodiment of the present instrument may be configured for use with a free-hand box chisel, or similar instrument. In this manner, access port (80) of second portion (30) serves as a device guide for improved safety, uniformity, and precision of a chisel device.
  • Embodiments of the present surgical instrument are preferably made of a durable material such as stainless steel, stainless steel alloy, titanium, or titanium alloy, but can also be made of other durable materials such as, but not limited to, polymeric, ceramic or composite materials. Durable materials may also consist of any number of pure metals and/or metal alloys. Certain embodiments of the present invention may also include more than one material. For example, the first portion may be made of a metal alloy and the second portion may be made of a ceramic material.
  • Certain preferred embodiments of the present invention may include a rasp portion (40) of various sizes. In certain embodiments of the invention, modular rasp portion (40) may be provided in varying sizes, shapes, and/or degrees of coarseness, which may be connected to the remaining modular components during surgery. For example, first portions (20) of various size, etc. may be removably connectable to a single base second portion (30), or alternatively may be assembled to various second portions (30). In yet still another embodiment, there may be multiples, or series, of instrument (10) each having a rasp portion (40) of various sizes, or shapes and/or degrees of coarseness, which are made available during surgery. Still further, rasp portion (40) may act as a spacer to maintain a desired intradiscal height while the lateral aspects of the endplates are prepared to a desired shape using a reamer or other suitable tool. Thus, the entire spinal endplate final geometry can be conveniently prepared to match a desired implant geometry for optimal seating of the implant in the disc space.
  • Different sizes of rasp portion (40) may cover various percentages of the available medial-lateral disc space. For example, one embodiment of rasp portion (40) may cover the entire medial-lateral width of the disc space. While other embodiments of rasp portion (40) may cover 50%, or more, of the medial-lateral width of the disc space with the remainder of the instrument serving as a guide for a reamer designed particularly for preparation of the spinal endplate, including removal of posterior-lateral osteophytes in the disc space. In yet another embodiment of the present invention, the entire width of the instrument is equivalent to the entire width of the implant to be inserted.
  • Those skilled in the art will appreciate that numerous changes and modifications can be made to the many embodiments of the invention and that such changes and modifications can be made without departing from the spirit of the invention. It is therefore intended that the appended claims cover all such equivalent variations as falling within the true spirit and scope of the invention
  • EXAMPLE 1
  • A certain embodiment of the present invention was used to prepare spinal endplates to receive a vertebral body replacement. In this surgical procedure, the spine was first exposed via an anterior approach and the center of the target disc was identified. The anterior annulus was then removed and a complete discectomy was performed. Residual cartilage was removed from the spinal endplates to expose bleeding bone. The resultant disc space was distracted by impacting sequentially larger heights of distractors/trial spacers into the disc space, until a tight feel was obtained.
  • Spinal endplate preparation started with a standard general rasp which was impacted into the disc space for initial coarse rasping and then removed. A size-specific rasp-reamer guide instrument (10) of the present invention was then used to remove strong osteophytes in the posterior-lateral region of the spinal endplate. The size specific rasp-reamer guide instrument (10) was impacted into the disc space via the end face of an optional instrument holder connected via opening (60).
  • A size-specific reamer (200) was advanced through the opening (80) of size specific rasp-reamer guide instrument (10), under fluoroscopic guidance, to remove posterior osteophytes on one side. A size-specific reamer (200) and rasp-reamer guide instrument (10) were then removed from the disc space. The rasp-reamer guide instrument (10) was then flipped about 180° about the longitudinal axis of reamer guide (80), and the previously discussed steps were repeated for the contra-lateral side of the spinal endplate.
  • After adequately preparing the endplates, the appropriately sized implant was selected, packed with graft material and placed in the prepared disc space.

Claims (69)

1. A surgical instrument for use in spinal surgery comprising a first portion connected to a second portion; wherein
said first portion and second portion are longitudinally offset from each other;
said first portion is generally D-shaped in transverse cross-section and further comprises a top and bottom surface having rasp teeth;
said first portion further including at least one aperture that extends the entire transverse length of said first portion;
said second portion is generally rectangular shaped and further comprises an access port for guiding a reamer device; and
said second portion is adapted for removable attachment to a holder.
2. The surgical instrument of claim 1, wherein at least one of said first and second portion further comprises at least one contact member.
3. The surgical instrument of claim 2, wherein said at least one contact member is at least one of slidably and rotatably connected to said first portion, said second portion, or combinations thereof.
4. The surgical instrument of claim 2, wherein said at least one contact member is extendable from at least one of said first and second portion.
5. The surgical instrument of claim 1, wherein said at least one first portion further comprises at least one graded marking.
6. The surgical instrument of claim 1, wherein said at least one second portion further comprises at least one graded marking.
7. The surgical instrument of claim 1, wherein said second portion is integrally connected to a holder
8. The surgical instrument of claim 1, wherein said instrument is comprised of a durable material.
9. The surgical instrument of claim 8, wherein the durable material is at least one of a pure metal and metal alloy.
10. The surgical instrument of claim 1, wherein said access port is controllably extendable from said second portion.
11. The surgical instrument of claim 10, wherein said access port is telescoping.
12. The surgical instrument of claim 1, wherein said access port is threaded.
13. A surgical instrument for use in spinal surgery comprising a first portion connected with a second portion; said first portion having top and bottom surfaces wherein at least one of said surfaces comprises rasp teeth; and said second portion including a device guide.
14. The surgical instrument of claim 13, wherein said first portion is removably connectable to said second portion.
15. The surgical instrument of claim 13, wherein said device guide is controllably extendable from said second portion.
16. The surgical instrument of claim 15, wherein said device guide is telescoping.
17. The surgical instrument of claim 13, wherein the device guide is an access port.
18. The surgical instrument of claim 17, wherein said access port is threaded.
19. The surgical instrument of claim 13, wherein the device guide is a frame.
20. The surgical instrument of claim 13, wherein the device guide is a track.
21. The surgical instrument of claim 13, wherein the first portion is generally D-shaped.
22. The surgical instrument of claim 13, further comprising at least one contact member connected to at least one of said first and second portion.
23. The surgical instrument of claim 22, wherein said at least one contact member is at least one of slidably and rotatably connected.
24. The surgical instrument of claim 22, wherein said at least one contact member is extendable from at least one of said first and second portion.
25. The surgical instrument of claim 13, wherein at least one of said first portion and second portion further comprise at least one graded marking.
26. The surgical instrument of claim 13, wherein said first portion is substantially planar.
27. The surgical instrument of claim 13, wherein said first portion is substantially cylindrical.
28. The surgical instrument of claim 13, wherein said first portion and said second portion are longitudinally offset from each other.
29. The surgical instrument of claim 13, wherein said second portion is removably connectable to a holder.
30. The surgical instrument of claim 13, wherein said second portion is integrally connected to a holder.
31. The surgical instrument of claim 13, wherein said first portion further includes at least one aperture that extends the entire transverse length of said first portion.
32. A kit for performing spinal surgery comprising:
a surgical instrument comprising at least one first portion being connectable or connected with at least one second portion; the first portion comprising top and bottom surfaces wherein at least one of said surfaces has rasp teeth; and the second portion including a device guide.
33. The kit of claim 32, wherein said device guide is an access port.
34. The kit of claim 32, wherein said device guide is a frame.
35. The kit of claim 32 wherein said device guide is a track.
36. The kit of claim 32, wherein the first portion is generally D-shaped.
37. The kit of claim 32, further comprising at least one contact member connected to at least one of said first and second portion.
38. The kit of claim 37, wherein said at least one contact member is extendable from at least one of said first and second portion.
39. The kit of claim 37, wherein said at least one contact member is slidably, rotatably, or combinations thereof, connected to at least one of said first and second portion.
40. The kit of claim 32, wherein said at least one first or second portion further includes at least one graded marking.
41. The kit of claim 32, wherein said at least one first portion is substantially planar.
42. The kit of claim 32, wherein said at least one first portion is substantially cylindrical.
43. The kit of claim 32, wherein said at least one first and second portion are longitudinally offset from each other.
44. The kit of claim 32, wherein said at least one second portion is integrally connected to a holder.
45. The kit of claim 32, wherein said at least one first portion further includes at least one aperture that extends the entire transverse length of said first portion.
46. The kit of claim 32, wherein said at least one second portion is removably connectable to a holder.
47. A method of performing spinal surgery comprising the steps of:
providing a surgical instrument comprising a first portion being connected or connectable with a second portion; the first portion including top and bottom surfaces wherein at least one of said surfaces has rasp teeth; the second portion including a device guide;
exposing the spine and identifying the center of at least one target vertebral disc;
removing the anterior annulus of said at least one vertebral disk and performing at least a partial discectomy, thus creating at least one intervertebral cavity;
removing a sufficient amount of spinal endplate cartilage to expose underlying bone;
distracting at least one intervertebral cavity;
using the first portion of said surgical instrument to prepare at least one of the posterior-lateral and anterior-lateral regions of one or more spinal endplates;
providing a reamer through the device guide of the surgical instrument to further prepare said one or more spinal endplates.
48. The method of claim 47, wherein the step of exposing the spine comprises an anterior surgical approach.
49. The method of claim 47, wherein a complete discectomy is performed.
50. The method of claim 47 further comprising the step of impacting at least one successively sized first-portion of the surgical instrument into the intervertebral cavity.
51. The method of claim 47, wherein the step of lateral preparation of one or more spinal endplates, comprises the step of contra-laterally rotating said surgical instrument.
52. The method of claim 47, wherein the step of providing a reamer comprises the steps of providing the reamer under fluoroscopic guidance.
53. The method of claim 47 further comprising the step of placing an appropriately sized implant into the prepared intervertebral cavity.
54. The method of claim 47, wherein said device guide is an access port.
55. The method of claim 47, wherein said device guide is a frame.
56. The method of claim 47, wherein said device guide is a track.
57. The method of claim 47, wherein said first portion is generally D-shaped.
58. The method of claim 47, further comprising at least one contact member connected to at least one of said first and second portion.
59. The method of claim 58, wherein said contact members are at least one of slidably and rotatably connected.
60. The method of claim 58, wherein said at least one contact member is extendable from said at least one of first and second portion.
61. The method of claim 47, wherein said first portion is substantially planar.
62. The method of claim 47, wherein said first portion is substantially cylindrical.
63. The method of claim 47, wherein said second portion is removably connectable to a holder.
64. The method of claim 47, wherein said first portion further includes at least one aperture that extends the entire transverse length of said first portion.
65. The method of claim 47, wherein said device guide is controllably extendable from said second portion.
66. The method of claim 54, wherein said access port is telescoping.
67. The method of claim 54, wherein said access port is threaded.
68. The method of claim 47, wherein said reamer further comprises a collet.
69. The method of claim 47, wherein said reamer is operatively engaged with said device guide.
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US10/973,481 US20060089649A1 (en) 2004-10-26 2004-10-26 Surgical instruments and method of using same
US12/137,760 US7947044B2 (en) 2004-10-26 2008-06-12 Surgical instruments for shaping spinal endplates
US13/111,992 US8435242B2 (en) 2004-10-26 2011-05-20 Surgical instruments and method of using same

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US20110224672A1 (en) 2011-09-15
US7947044B2 (en) 2011-05-24
US8435242B2 (en) 2013-05-07
US20080243128A1 (en) 2008-10-02

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