MARINO JAMES F (US)
| WO2004043278A1 | 2004-05-27 |
| US20040176763A1 | 2004-09-09 | |||
| US20050165483A1 | 2005-07-28 |
CLAIMS What is claimed is:
1. A method, including: percutaneously creating a pathway to a first uncoupled articulated jointed bony interface; and percutaneously inserting a fusion construct in the first uncoupled articulated jointed bony interface.
2. The method of claim 1, wherein the first uncoupled articulated jointed bony interface is formed by a first pedicle joint between an inferior vertebra and a superior vertebra.
3. The method of claim 1, further including percutaneously inserting a guide wire into the first uncoupled articulated jointed bony interface.
4. The method of claim 3, further including percutaneously inserting a cannulated obturator over the guide wire and toward the first uncoupled articulated jointed bony interface to create the pathway to the first uncoupled articulated jointed bony interface.
5. The method of claim 3, further including percutaneously inserting a cannulated reamer over the guide wire and toward the first uncoupled articulated jointed bony interface to create a reamed opening in the first uncoupled articulated jointed bony interface.
6. The method of claim 5, wherein the fusion construct is configured to fit securely within the reamed opening.
7. The method of claim 5, wherein the fusion construct includes an allograph dowel.
8. The method of claim 5, wherein the fusion construct is cannulated.
9. The method of claim 2, further including: percutaneously creating a pathway to a second uncoupled articulated jointed bony interface; and percutaneously inserting a second fusion construct in the second uncoupled articulated jointed bony interface, wherein the second uncoupled articulated jointed bony interface is formed by a second pedicle joint between the inferior vertebra and the superior vertebra.
10. The method of claim 9, wherein the second fusion construct includes an allograph dowel.
11. A system, including: a guide wire configured for percutaneously creating a path to a first uncoupled articulated jointed bony interface; a cannulated obturator configured to pass over the guide wire and for percutaneously creating a pathway to first uncoupled articulated jointed bony interface; and a cannulated fusion construct configured to pass over the guide wire and to fit securely within the first uncoupled articulated jointed bony interface.
12. The system of claim 11, wherein the first uncoupled articulated jointed bony interface is formed by a first pedicle joint between an inferior vertebra and a superior vertebra.
13. The system of claim 12, further including a cannulated reamer configured to pass over the guide wire and create a reamed opening in the first uncoupled articulated jointed bony interface.
14. The system of claim 13, wherein the fusion construct is configured to fit securely within the reamed opening.
15. The system of claim 14, wherein the fusion construct includes an allograph dowel.
16. A surgical kit, including: a guide wire configured for percutaneously creating a path to a first uncoupled articulated jointed bony interface; a cannulated obturator configured to pass over the guide wire and for percutaneously creating a pathway to first uncoupled articulated jointed bony interface; a cannulated reamer configured to pass over the guide wire and create a reamed opening in the first uncoupled articulated jointed bony interface; and a cannulated fusion construct configured to pass over the guide wire and to fit securely within a reamed opening of the first uncoupled articulated jointed bony interface.
17. The surgical kit of claim 16, wherein the first uncoupled articulated jointed bony interface is formed by a first pedicle joint between an inferior vertebra and a superior vertebra.
18. The system of claim 17, wherein the fusion construct includes an allograph dowel.
19. The surgical kit of claim 16, including a second cannulated fusion construct configured to pass over a guide wire and to fit securely within a second uncoupled articulated jointed bony interface.
20. The surgical kit of claim 19, wherein the second uncoupled articulated jointed bony interface is formed by a second pedicle joint between the inferior vertebra and the superior vertebra. |
PERCUTANEOUS FACET JOINT FUSION SYSTEM AND METHOD
CROSS REFERENCE TO RELATED APPLICATION
001 This invention is related to Provisional Patent Application No. 60/764,935, filed February 2, 2006, Attorney Docket Number TO008US, and entitled "Percutaneous Facet Joint Fusion Methodology" which is hereby incorporated by reference for its teachings.
BACKGROUND
1. Field of the Invention
002 The invention relates generally to orthopedic boney fusion and stabilization systems and methods, and more particularly, to percutaneous fusion and stabilization systems and methods.
2. Description of Related Art
003 It is desirable to provide a percutaneous fusion and stabilization system and method that limits or prevent the risks of nerve injury or epineural fibrosis. The present invention provides such a system and method.
BRIEF DESCRIPTION OF THE DRAWINGS
004 The features, objects, and advantages of the present invention will become more apparent from the detailed description set forth below when taken in conjunction with the drawings in which like reference characters identify correspondingly throughout and wherein:
005 FIGURE IA is a simplified sagittal view of a vertebrae pair;
006 FIGURE IB is a simplified, sectional coronal view a vertebrae;
007 FIGURE 2A is a simplified coronal view of the vertebrae pair including a guide pin and a support sleeve, the guide pin being inserted into a facet joint between the vertebra pair in accordance with an embodiment of the present invention;
008 FIGURE 2B is a simplified sagittal view of the vertebrae pair including the guide pin and the support sleeve, the guide pin being inserted into the facet joint between the vertebra pair as shown in FIGURE 2A;
009 FIGURE 2C is a simplified posterior view of the vertebrae pair including the guide pin and the support sleeve, the guide pin being inserted into the facet joint between the vertebra pair as shown in FIGURE 2A;
010 FIGURE 2D is a simplified isometric view of the vertebrae pair including the guide pin and the support sleeve, the guide pin being inserted into the facet joint between the vertebra pair as shown in FIGURE 2A;
011 FIGURE 3 A is a simplified isometric view of the vertebrae pair shown in FIGURE 2D further including an obturator and a cannula inserted over the guide pin and the support sleeve, the obturator being advanced toward the facet joint between the vertebra pair to create a pathway to the facet joint in accordance with an embodiment of the present invention;
012 FIGURE 3B is a simplified isometric view of the vertebrae pair where the obturator and guide sleeve have been removed leaving the guide pin inserted into the facet joint with the cannula over the guide pin in accordance with an embodiment of the present invention;
013 FIGURE 3C is a simplified isometric view of the vertebrae pair shown in FIGURE 3B further including a cannulated reamer inserted over the guide pin and within the cannula, the reamer being operatively advanced into the facet joint to form a bore in the facet joint in accordance with an embodiment of the present invention;
014 FIGURE 4A is a simplified isometric view of the vertebrae pair where the cannulated reamer has been removed leaving the guide pin inserted in the bored facet joint and the cannula over the guide pin in accordance with an embodiment of the present invention;
015 FIGURE 4B is a simplified isometric view of the vertebrae pair shown in FIGURE 4A where a fusion construct has been inserted into the facet joint bore in accordance with an embodiment of the present invention;
016 FIGURE 5A is a simplified isometric view of the vertebrae pair shown in FIGURE 4B where a fusion construct has been inserted into the left and right facet joints and a pedicle based fixation construct has been placed on the left and right side of the vertebrae pair in accordance with an embodiment of the present invention;
017 FIGURE 5B is a simplified posterior view of the vertebrae pair shown in FIGURE 5 A where a fusion construct has been inserted into the left and right facet joints and a pedicle based fixation construct has been placed on the left and right side of the vertebrae pair in accordance with an embodiment of the present invention;
018 FIGURE 5C is a simplified coronal view of the vertebrae pair shown in FIGURE 5A where a fusion construct has been inserted into the left and right facet joints and a pedicle based fixation construct has been placed on the left and right side of the vertebrae pair in accordance with an embodiment of the present invention; and
019 FIGURE 5D is a simplified sagittal view of the vertebrae pair shown in FIGURE 5A where a fusion construct has been inserted into the left and right facet joints and a pedicle based fixation construct has been placed on the left and right side of the vertebrae pair in accordance with an embodiment of the present invention.
DETAILED DESCRIPTION
020 Throughout this description, embodiments and variations are described for the purpose of illustrating uses and implementations of the invention. The illustrative description should be understood as presenting examples of the invention, rather than as limiting the scope of the invention.
021 FIGURE IA is a simplified sagittal view of a vertebrae pair 20, 21. FIGURE IB is a simplified, sectional coronal view of the vertebrae 21 of the vertebrae pair shown in FIGURE IA. Each vertebra 20, 21 includes lamina 12, transverse processes 14, a spinous process 16, central canal 10, and pedicles 24. A disc 22 comprised of an annulus and disc nucleus (not shown) is located between the vertebrae pair 20, 21 where the vertebrae pair 20, 21 and disc 22 form a coupled articulated jointed bony interface. Due to disc degeneration, expulsion, annulus tears, or other conditions, the spinal cord that passes through the central canal 10 may become compressed causing patient discomfort. It may be desirable to modify or fix the spatial relationship between the vertebrae pair 20, 21. FIGURES 2A to 5D present various apparatus and methods for fusing the vertebrae pair 20, 21 via the facet joints between the vertebrae pair 20, 21 where the facet joints between a vertebrae pair 20, 21 form an uncoupled articulated jointed bony interface.
022 FIGURE 2A is a simplified coronal view, FIGURE 2B is a simplified sagittal view, FIGURE 2C is a simplified posterior view, and FIGURE 2D is an isometric view of the vertebrae pair 20, 21 including a guide pin or wire 30 and a support sleeve 32 in accordance with an embodiment of the present invention. In this embodiment, the guide pin 30 is inserted at a posterior, lateral angle from the coronal view and normal to the vertebrae 20 from the sagittal view. The guide pin extends into the vertebrae 20, vertebrae 21 facet joint. The facet joint is formed by vertebrae 20 superior process 25 and vertebrae 21 inferior process 23 (as shown in FIGURE 2C). In addition in an embodiment a support sleeve 32 may be inserted over the guide pin 30. The support sleeve 32 may be a thin walled cannula in an embodiment of the present invention.
023 FIGURE 3 A is a simplified isometric view of the vertebrae pair 20, 21 shown in FIGURE 2D further including an obturator 36 and cannula 34 inserted over the guide pin 30 and support sleeve 32. hi an embodiment the obturator 36 may be advanced toward to
facet joint 23, 25 to create a tissue pathway to the facet joint. FIGURE 3B is a simplified isometric view of the vertebrae pair 20, 21 where the obturator 36 and guide sleeve 32 have been removed leaving the guide pin 30 inserted into the facet joint with the cannula 34 over the guide pin 30. FIGURE 3C is a simplified isometric view of the vertebrae pair 20, 21 shown in FIGURE 3B further including a cannulated reamer 38 inserted over the guide pin 30 and within the cannula 34. In an embodiment, the reamer 38 may be operatively advanced into the facet joint to form a bore in the facet joint 23, 25. In an embodiment the reamer 38 may have about a 5mm diameter and about an 8mm depth stop. In this embodiment, the reamer 38 may be used to form an approximately 10mm deep, 5mm in diameter bore (39 shown in FIGURE 4A) in the facet joint 23, 25, the bore 39 axis being approximately normal to the coronal plane of vertebrae 20. In this embodiment the cannula 34 may have a diameter of about 8.5mm.
024 FIGURE 4A is a simplified isometric view of the vertebrae pair 20, 21 where the cannulated reamer 38 has been removed leaving the guide pin 30 with cannula 34 inserted in the bored facet joint in accordance with an embodiment of the present invention. FIGURE 4B is a simplified isometric view of the vertebrae pair 20, 21 shown in FIGURE 4A where a fusion construct 40 has been inserted into the facet joint. In an embodiment the fusion construct may be cannulated so it may be inserted over the guide pin 30 and through the cannula 34 into the facet joint bore. The fusion construct 40 may have a diameter greater than the bore diameter. In another embodiment the fusion construct is not cannulated. In this embodiment the guide pin 30 may be removed prior to the fusion construct 40 insertion. The fusion construct may be advanced into the facet joint bore via the cannula 34. In an embodiment the fusion construct 40 may include bone.
025 In an embodiment additional fixation constructs may be employed to aid facet joint fusion with the fusion construct 40. FIGURE 5A is a simplified isometric view, FIGURE 5B is a simplified posterior view, FIGURE 5C is a simplified coronal view, and FIGURE 5D is a simplified sagittal view of the vertebrae pair shown in FIGURE 4B where a fusion construct 40 has been inserted into the left and right facet joints and a pedicle based fixation construct 50 has been placed on the left and right side of the vertebrae pair 20, 21 in accordance with an embodiment of the present invention.
026 In an embodiment the fixation construct 50 includes two pedicles screws 54, receiving members 56, two rod locking caps 58, and a serrated rod 52. In an embodiment each pedicle screw 54 is inserted into a pedicle 24 of the vertebrae 20, 21 along the same side of the pair 20, 21. In an embodiment each pedicle screw 54 is uni-axially coupled to a rod receiving member 56. After each pedicle screw, receiving member 56 combination is inserted into a pedicle, a rod may be placed into the receiving members 56. After the desired disc 22 distraction or compression is achieved locking caps 58 may secured against the rod 52 ends to fixate a side of the vertebrae 20, 21 pair. As noted such fixation may aid facet joint fusion in an embodiment. In an embodiment a fusion construct 40 is placed in the left and right facet joints and a fixation construct 50 is also placed on the left and right side of the vertebrae pair 20, 21.
027 While this invention has been described in terms of a best mode for achieving the objectives of the invention, it will be appreciated by those skilled in the art that variations may be accomplished in view of these teachings without deviating from the spirit or scope of the present invention. For example, the inferior vertebrae 20 may be the sacrum and the superior vertebrae 21 the adjacent vertebrae, L5 in humans. The present invention may also be employed in any bony interface to promote fusion at the bony interface.