Prosthetic lumbar disc assembly having natural biomechanical movement

US 20110093076A1
Filed: 11/08/2010
Published: 04/21/2011
Est. Priority Date: 12/28/2006
Status: Abandoned Application

First Claim

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1. A prosthetic intervertebral disc for implantation in the lumbar spine of a human comprising:

a.) a first end structure attachable to a first vertebrae,b.) a second end structure attachable to a second vertebrae,c.) a core structure comprising at least a portion in compression with relation to the first end structure and the second end structure, said core member comprising at least a portion in tension with relation both to the first end structure and to the second end structure, having a bulk compressibility of 1200 N/mm+/−

600 N/mm, and positioned with respect to and interacting with the first end structure and with the second end structure such that, when measured with an axial preloading, provides;

a nonlinear torsional response to relational movement between the first end structure and with the second end structure when a torsional moment is applied to at least one of the first end structure and the second end structure, and,a nonlinear side-to-side bending response to relational movement between the first end structure and the second end structure when a side-to-side bending moment is applied to at least one of the first end structure and the second end structure, and,a nonlinear flexion-extension to relational movement between the first end structure and the second end structure when a flexion-extension moment is applied to at least one of the first end structure and the second end structure, and,and wherein each of the first end structure and the second end structure defines an IAR and wherein the IAR'"'"'s of each of the first end structure and the second end structure, when a moment is applied to said end structure, is determined by the compression and tension of the core structure.

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Abstract

Described here is a surgical device. Specifically, the device is a prosthetic spinal implant that replaces a natural lumbar disc in the spine. The device has biomechanical attributes substantially similar to a natural disc.

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36 Claims

1. A prosthetic intervertebral disc for implantation in the lumbar spine of a human comprising:
- a.) a first end structure attachable to a first vertebrae,b.) a second end structure attachable to a second vertebrae,c.) a core structure comprising at least a portion in compression with relation to the first end structure and the second end structure, said core member comprising at least a portion in tension with relation both to the first end structure and to the second end structure, having a bulk compressibility of 1200 N/mm+/−
  
  600 N/mm, and positioned with respect to and interacting with the first end structure and with the second end structure such that, when measured with an axial preloading, provides;
  
  a nonlinear torsional response to relational movement between the first end structure and with the second end structure when a torsional moment is applied to at least one of the first end structure and the second end structure, and,a nonlinear side-to-side bending response to relational movement between the first end structure and the second end structure when a side-to-side bending moment is applied to at least one of the first end structure and the second end structure, and,a nonlinear flexion-extension to relational movement between the first end structure and the second end structure when a flexion-extension moment is applied to at least one of the first end structure and the second end structure, and,and wherein each of the first end structure and the second end structure defines an IAR and wherein the IAR'"'"'s of each of the first end structure and the second end structure, when a moment is applied to said end structure, is determined by the compression and tension of the core structure.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36)
- - 2. The prosthetic intervertebral disc of claim 1 where the disc has an annular region and a nucleus region, the annular region forming an annulus surrounding the nucleus region, and where the at least a portion in compression is positioned between said first and second end structures and located only in the nucleus region and where the at least a portion in tension is positioned between said first and second end structures and located only in the nucleus region.
  - 3. The prosthetic intervertebral disc of claim 1 wherein the nonlinear torsional response to relational movement between the first end structure and with the second end structure when a torsional moment is applied to at least one of the first end structure and the second end structure, the nonlinear side-to-side bending response to relational movement between the first end structure and the second end structure when a side-to-side bending moment is applied to at least one of the first end structure and the second end structure, and the nonlinear flexion-extension response to relational movement between the first end structure and the second end structure when a flexion-extension moment is applied to at least one of the first end structure and the second end structure substantially mimic the functional responses of a natural intervertebral disc.
  - 4. The prosthetic intervertebral disc of claim 2 wherein the nonlinear torsional response to relational movement between the first end structure and with the second end structure when a torsional moment is applied to at least one of the first end structure and the second end structure, the nonlinear side-to-side bending response to relational movement between the first end structure and the second end structure when a side-to-side bending moment is applied to at least one of the first end structure and the second end structure, and the nonlinear flexion-extension response to relational movement between the first end structure and the second end structure when a flexion-extension moment is applied to at least one of the first end structure and the second end structure substantially mimic the functional responses of a natural intervertebral disc.
  - 5. The prosthetic intervertebral disc of claim 2 wherein the core member comprising at least a portion in tension comprises at least one fiber extending between and engaged with said first and second end structures, the at least one fiber located only in the annular region.
  - 6. The prosthetic intervertebral disc of claim 5 wherein said first and second end structures are held together and said first and second end structures and said core member are held together by the at least one fiber in a manner and positioned with respect to and interacting with the first end structure and with the second end structure such that the disc, when measured with an axial preloading, provides:
    - a nonlinear torsional response to relational movement between the first end structure and with the second end structure when a torsional moment is applied to at least one of the first end structure and the second end structure of the form in FIG. 5, and,a nonlinear side-to-side bending response to relational movement between the first end structure and the second end structure when a side-to-side bending moment is applied to at least one of the first end structure and the second end structure of the form in FIG. 5, and,a nonlinear flexion-extension response to relational movement between the first end structure and the second end structure when a flexion-extension moment is applied to at least one of the first end structure and the second end structure of the form in FIG. 5.
  - 7. The prosthetic intervertebral disc of claim 2 wherein the core structure comprising at least a portion in compression comprises a polymeric core member.
  - 8. The prosthetic intervertebral disc of claim 7 wherein the polymeric core member is formed by compression molding and heat-treating a core member blank at 70°
    - -90°
      
      C. for 8-15 hours, the polymeric core member having a bulk compressibility of 1200 N/mm+/−
      
      600 N/mm, and wherein the polymeric core member is positioned between said first and second end structures and located only in the nucleus region.
  - 9. The prosthetic intervertebral disc of claim 8 wherein the core member blank comprises a polyurethane-polycarbonate TPE.
  - 10. The prosthetic intervertebral disc of claim 1 wherein the first end structure and the second end structure each include interior surfaces opposite exterior surfaces attachable to the vertebrae, the interior surfaces comprising depressions adjacent the core structure comprising at least a portion in compression.
  - 11. The prosthetic intervertebral disc of claim 10 wherein the core structure comprising at least a portion in compression conforms in shape to the depressions.
  - 12. The prosthetic intervertebral disc of claim 11 wherein the core structure comprising at least a portion in compression comprises a polymer.
  - 13. The prosthetic intervertebral disc of claim 1 wherein the disc is measured with about 150 Nm axial preloading.
  - 14. The prosthetic intervertebral disc of claim 1 wherein the disc is measured with about 600 Nm axial preloading.
  - 15. The prosthetic intervertebral disc of claim 1 wherein the first end structure and the second end structure are substantially inflexible.
  - 16. The prosthetic intervertebral disc of claim 1 wherein at least one of the first end structure and the second end structure are directly attachable respectively to a first vertebrae and to a second vertebrae.
  - 17. The prosthetic intervertebral disc of claim 1 wherein the first end structure and the second end structure are indirectly attachable respectively to a first vertebrae and to a second vertebrae.
  - 18. The prosthetic intervertebral disc of claim 1 wherein the portion of the core structure in compression comprises at least one polymeric elastic member having a bulk compressibility of 1200 N/mm+/−
    - 600 N/mm extending between the first end structure and the second end structure.
  - 19. The prosthetic intervertebral disc of claim 1 wherein the portion of the core structure in tension with relation both to the first end structure and to the second end structure comprises multiple polymeric fibers extending between the first end structure and the second end structure and wherein the individual polymeric fibers of said multiple polymeric fibers have a tensile strength between 180 and 210 Nm.
  - 20. The prosthetic intervertebral disc of claim 1 wherein the portion of the core structure in tension with relation both to the first end structure and to the second end structure comprises multiple polymeric fibers extending between the first end structure and the second end structure and configured to provide torsional resistance between the first end structure and the second end structure with a neutral zone and having torsional resistance of at least about 0.10 Nm to about 0.55 Nm outside of the neutral zone.
  - 21. The prosthetic intervertebral disc of claim 1 wherein the disc neutral zone is about +1°
    - to −
      
      2°
      
      in flexion-extension.
  - 22. The prosthetic intervertebral disc of claim 1 wherein the disc range of motion (ROM) limit is about 10°
    - to 12°
      
      in flexion-extension.
  - 23. The prosthetic intervertebral disc of claim 1 wherein the disc range of motion (ROM) limit is about +/−
    - 10°
      
      in lateral movement.
  - 24. The prosthetic intervertebral disc of claim 1 wherein the disc range of motion (ROM) limit is about +/−
    - 6°
      
      in axial rotation.
  - 25. The prosthetic intervertebral disc of claim 1 wherein the compressible core member in compression is formed by compression molding and heat-treating.
  - 26. The prosthetic intervertebral disc of claim 25 wherein the compressible core member in compression comprises a TPE.
  - 27. The prosthetic intervertebral disc of claim 26 wherein the TPE comprises a polyurethane-polycarbonate TPE.
  - 28. The prosthetic intervertebral disc of claim 27 wherein the heat-treating is carried out at 70°
    - -90°
      
      C. for 8-15 hours.
  - 29. The prosthetic intervertebral disc of claim 1 wherein the compressible core member has a nominal height of about 7-8 mm.
  - 30. The prosthetic intervertebral disc of claim 1 wherein the compressible core member has a nominal width of about 18-19 mm.
  - 31. The prosthetic intervertebral disc of claim 1 wherein the disc has a width of about 34-38 mm.
  - 32. The prosthetic intervertebral disc of claim 1 wherein the disc has a height of about 10-14 mm.
  - 33. The prosthetic intervertebral disc of claim 1 wherein the disc has a lordotic angle of between about 0°
    - to 15°
      
      .
  - 34. The prosthetic intervertebral disc of claim 1 wherein the core structure comprises at least one polymeric core member that further includes spacer members adjacent the first end structure and to the second end structure to provide space for passage of sterilizing medium between the polymeric core member and the first end structure and the second end structure.
  - 35. The prosthetic intervertebral disc of claim 1 further comprising a generally cylindrical annular capsule extending between the first and second end structures and enclosing the core structure
  - 36. The prosthetic intervertebral disc of claim 35 wherein the annular capsule is bellowed.

Specification

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Current Assignee
Darin C. Gittings, Dean Carson, Elisa Bass, Michael L. Reo, Nicholas C. Koske, Roxanne L. Richman
Original Assignee
Darin C. Gittings, Dean Carson, Elisa Bass, Michael L. Reo, Nicholas C. Koske, Roxanne L. Richman
Inventors
Bass, Elisa, Richman, Roxanne L., Carson, Dean, Koske, Nicholas C., Reo, Michael L., Gittings, Darin C.

Application Number

US12/927,211
Publication Number

US 20110093076A1
Time in Patent Office

Days
Field of Search
US Class Current

623/17.16
CPC Class Codes

A61F 2/30965   Reinforcing the prosthesis ...

A61F 2/441   made of inflatable pockets ...

A61F 2/442   Intervertebral or spinal di...

A61F 2/468   Testing instruments for art...

A61F 2002/30014   differing in elasticity, st...

A61F 2002/30448   using adhesives

A61F 2002/30451   soldered or brazed or welded

A61F 2002/30462   retained or tied with a rop...

A61F 2002/30563   having elastic means or dam...

A61F 2002/30578   having apertures, e.g. for ...

A61F 2002/30604   modular

A61F 2002/30843   Pyramidally-shaped

A61F 2002/30904   serrated profile, i.e. saw-...

A61F 2002/30919   Sleeves

A61F 2002/4495   having a fabric structure, ...

A61F 2002/4667   for measuring torque

A61F 2220/005   using adhesives

A61F 2220/0058   soldered or brazed or welded

A61F 2220/0075   sutured, ligatured or stitc...

A61F 2250/0018   differing in elasticity, st...

A61F 2310/00017 : Iron- or Fe-based alloys, e...

A61F 2310/00023 : Titanium or titanium-based ...

A61F 2310/00179 : Ceramics or ceramic-like st...

A61F 2310/00407 : Coating made of titanium or...

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Prosthetic lumbar disc assembly having natural biomechanical movement

First Claim

2 Assignments

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Abstract

79 Citations

36 Claims

Specification

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Prosthetic lumbar disc assembly having natural biomechanical movement

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

79 Citations

36 Claims

Specification

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Solutions

Use Cases

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