Emulating natural knee kinematics in a knee prosthesis

US 7,160,330 B2
Filed: 01/21/2003
Issued: 01/09/2007
Est. Priority Date: 01/21/2003
Status: Active Grant

First Claim

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1. In a knee prosthesis for implantation to replace a natural knee joint and emulate movements of the natural knee joint during articulation, the natural knee joint having a lateral compartment and a medial compartment, the knee prosthesis having a femoral component including at least one condylar element with a condylar surface having a transverse axis of rotation, and a tibial component including at least one articular surface for engagement with the condylar surface of the femoral component in one of the lateral and medial compartments for articulation of the knee prosthesis through flexion about the transverse axis of rotation:

an improvement wherein the condylar surface and the articular surface are configured for enabling engagement between the condylar surface and the articular surface along a generally arcuate track during articulation about the transverse axis of rotation for flexion within at least a prescribed range of flexion extending up to a predetermined degree of flexion while enabling relative rotational movement between the femoral component and the tibial component to take place about a longitudinal axis of rotation, the generally arcuate track having a center of curvature placed in a generally coronal plane, and the longitudinal axis of rotation being located essentially in a generally sagittal plane intersecting the coronal plane at an intersection, and being spaced a predetermined distance from the intersection such that upon flexion within the prescribed range of flexion the transverse axis of rotation will be maintained essentially in a generally medial-lateral longitudinal plane located in close proximity with the coronal plane, with the longitudinal plane spaced from the longitudinal axis of rotation essentially by the predetermined distance and movable about the longitudinal axis of rotation in response to relative rotational displacement between the femoral component and the tibial component, to intersect the coronal plane at angles corresponding to the relative rotational displacement during if flexion within the prescribed range of flexion.

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Abstract

A knee prosthesis and method for emulating movements, during flexion, of a natural knee joint replaced by the knee prosthesis, by enabling engagement and relative movement between the femoral component and the tibial component of the knee prosthesis along arcuate tracks, including rotational movement about a longitudinal axis of rotation, during flexion about a transverse axis of rotation, and maintaining the transverse axis of rotation essentially in a generally medial-lateral longitudinal plane maintained in close proximity with a generally coronal plane passing through the centers of curvature of the arcuate tracks during flexion within at least a prescribed range of flexion extending from about 0° of flexion to a predetermined degree of flexion, preferably about 60° of flexion. A stabilizing mechanism couples the femoral component with the tibial component within a portion of the prescribed range of flexion, the portion being between about 45° of flexion and about 60° of flexion, for providing stability and for assisting in maintaining the transverse axis of rotation essentially in the longitudinal plane, and the longitudinal plane in close proximity with the coronal plane as the longitudinal plane is rotated about the longitudinal axis of rotation.

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60 Claims

1. In a knee prosthesis for implantation to replace a natural knee joint and emulate movements of the natural knee joint during articulation, the natural knee joint having a lateral compartment and a medial compartment, the knee prosthesis having a femoral component including at least one condylar element with a condylar surface having a transverse axis of rotation, and a tibial component including at least one articular surface for engagement with the condylar surface of the femoral component in one of the lateral and medial compartments for articulation of the knee prosthesis through flexion about the transverse axis of rotation:
- an improvement wherein the condylar surface and the articular surface are configured for enabling engagement between the condylar surface and the articular surface along a generally arcuate track during articulation about the transverse axis of rotation for flexion within at least a prescribed range of flexion extending up to a predetermined degree of flexion while enabling relative rotational movement between the femoral component and the tibial component to take place about a longitudinal axis of rotation, the generally arcuate track having a center of curvature placed in a generally coronal plane, and the longitudinal axis of rotation being located essentially in a generally sagittal plane intersecting the coronal plane at an intersection, and being spaced a predetermined distance from the intersection such that upon flexion within the prescribed range of flexion the transverse axis of rotation will be maintained essentially in a generally medial-lateral longitudinal plane located in close proximity with the coronal plane, with the longitudinal plane spaced from the longitudinal axis of rotation essentially by the predetermined distance and movable about the longitudinal axis of rotation in response to relative rotational displacement between the femoral component and the tibial component, to intersect the coronal plane at angles corresponding to the relative rotational displacement during if flexion within the prescribed range of flexion.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 2. The improvement of claim 1 wherein the coronal plane is spaced posteriorly from the longitudinal axis of rotation, and the longitudinal plane rotates about the longitudinal axis of rotation along an arcuate path having a radius essentially equivalent to the predetermined distance during flexion within the prescribed range of flexion.
  - 3. The improvement of claim 2 wherein the longitudinal plane is maintained essentially tangent to the arcuate path during flexion within the prescribed range of flexion.
  - 4. The improvement of claim 1 wherein the prescribed range of flexion extends between about 0°
    - of flexion and a predetermined degree of flexion of about 60°
      
      of flexion.
  - 5. The improvement of claim 1 wherein the condylar surface and the articular surface are configured for enabling essentially congruent engagement during movement throughout the generally arcuate track.
  - 6. The improvement of claim 1 wherein the center of curvature is located for placement in the other of the lateral and medial compartments.
  - 7. The improvement of claim 1 wherein the knee prosthesis includes a medial compartment and a lateral compartment spaced laterally from the medial compartment, the one condylar element is located in the lateral compartment of the knee prosthesis, and the center of curvature of the generally arcuate track is located in the medial compartment of the knee prosthesis.
  - 8. The improvement of claim 1 including a stabilizing mechanism for coupling the femoral component with the tibial component during flexion within a portion of the prescribed range of flexion, with the stabilizing mechanism enabling relative rotational movement between the femoral component and the tibial component about the longitudinal axis of rotation during articulation about the transverse axis of rotation, while the transverse axis of rotation is maintained essentially in the longitudinal plane, and the longitudinal plane is moved about the longitudinal axis of rotation, essentially at the predetermined distance from the longitudinal axis.
  - 9. The improvement of claim 8 wherein the coronal plane is spaced posteriorly from the longitudinal axis of rotation, and the longitudinal plane rotates about the longitudinal axis of rotation along an arcuate path having a radius essentially equivalent to the predetermined distance during flexion within the prescribed range of flexion.
  - 10. The improvement of claim 9 wherein the longitudinal plane is maintained essentially tangent to the arcuate path during flexion within the prescribed range of flexion.
  - 11. The improvement of claim 8 wherein the prescribed range of flexion extends between about 0°
    - of flexion and a predetermined degree of flexion of about 60°
      
      of flexion, and the portion of the prescribed range of flexion extends between about 45°
      
      of flexion and the predetermined degree of flexion.
  - 12. The improvement of claim 8 wherein the stabilizing mechanism includes a post on one of the femoral component and the tibial component, the post having a cam surface, and a follower on the other of the femoral component and the tibial component for engaging the cam surface at least during articulation within the portion of the prescribed range of flexion.
  - 13. The improvement of claim 12 wherein the post is on the tibial component for projecting in a superior direction toward the femoral component, and the follower is on the femoral component.
  - 14. The improvement of claim 13 wherein the cam surface is located on a posterior aspect of the post, and the follower includes an anterior aspect for engaging the post along the cam surface.
  - 15. The improvement of claim 14 wherein the generally coronal plane is tangent to the cam surface at the intersection between the coronal plane and the sagittal plane.
  - 16. The improvement of claim 15 wherein the longitudinal plane is located so as to be tangent to the cam surface where the follower engages the post during articulation within the portion of the prescribed range of flexion.
  - 17. The improvement of claim 16 wherein the prescribed range of flexion extends between about 0°
    - of flexion and a predetermined degree of flexion of about 60°
      
      of flexion, and the portion of the prescribed range of flexion extends between about 45°
      
      of flexion and the predetermined degree of flexion.
  - 18. The improvement of claim 17 wherein the relative rotational movement between the femoral component and the tibial component is about 6°
    - during articulation within the prescribed range of flexion.

19. In a knee prosthesis for implantation to replace a natural knee joint and emulate movements of the natural knee joint during articulation, the knee prosthesis having a lateral compartment and a medial compartment, a femoral component including a lateral condylar element with a lateral condylar surface, a medial condylar element with a medial condylar surface, and a transverse axis of rotation, and a tibial component including a lateral articular surface for engagement with the lateral condylar surface of the femoral component in the lateral compartment and a medial articular surface for engagement with the medial condylar surface of the femoral component in the medial compartment for articulation of the knee prosthesis through flexion about the transverse axis of rotation:
- an improvement wherein the condylar surfaces and the articular surfaces are configured for enabling engagement between the lateral condylar surface and the lateral articular surface at positions along a first generally arcuate track having a first center of curvature and between the medial condylar surface and the medial articular surface at positions along a second generally arcuate track having a second center of curvature during articulation about the transverse axis of rotation for flexion within at least a prescribed range of flexion extending up to a predetermined degree of flexion while enabling relative rotational movement between the femoral component and the tibial component to take place about a longitudinal axis of rotation, the first and second centers of curvature being placed in a common generally coronal plane, and the longitudinal axis of rotation being located essentially in a generally sagittal plane intersecting the coronal plane at an intersection and being spaced a predetermined distance from the intersection such that upon flexion within the pesecribed range of flexion the transverse axis of rotation will be maintained essentially in a generally medial-lateral longitudinal plane located in close proximity with the coronal plane, and the longitudinal plane spaced from the longitudinal axis of rotation essentially by the predetermined distance and movable about the longitudinal axis of rotation in response to relative rotational displacement between the femoral component and the tibial component, to intersect the coronal plane at angles corresponding to the relative rotational displacement during flexion within the prescribed range of flexion.
- View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38)
- - 20. The improvement of claim 19 wherein the coronal plane is spaded posteriorly from the longitudinal axis of rotation, and the longitudinal plane rotates about the longitudinal axis of rotation along an arcuate path having a radius essentially equivalent to the predetermined distance during flexion within the prescribed range of flexion.
  - 21. The improvement of claim 20 wherein the longitudinal plane is maintained essentially tangent to the arcuate path during flexion within the prescribed range of flexion.
  - 22. The improvement of claim 19 wherein the prescribed range of flexion extends between about 0°
    - of flexion and a predetermined degree of flexion of about 60°
      
      of flexion.
  - 23. The improvement of claim 19 wherein the lateral and medial condylar surfaces and the lateral and medial articular surfaces are configured for enabling essentially congruent engagement at the positions along the generally arcuate track.
  - 24. The improvement of claim 19 wherein the first center of curvature is located in the medial compartment and the second center of curvature is located in the lateral compartment.
  - 25. The improvement of claim 19 including a stabilizing mechanism for coupling the femoral component with the tibial component during flexion within a portion of the prescribed range of flexion, with the stabilizing mechanism enabling relative rotational movement between the femoral component and the tibial component about the longitudinal axis of rotation during articulation about the transverse axis of rotation, while the transverse axis of rotation is maintained essentially in the longitudinal plane, and the longitudinal plane is moved about the longitudinal axis of rotation, essentially at the predetermined distance from the longitudinal axis of rotation.
  - 26. The improvement of claim 25 wherein the coronal plane is spaced posteriorly from the longitudinal axis of rotation, and the longitudinal plane rotates about the longitudinal axis of rotation along an arcuate path having a radius essentially equivalent to the predetermined distance during flexion within the prescribed range of flexion.
  - 27. The improvement of claim 26 wherein the longitudinal plane is maintained essentially tangent to the arcuate path during flexion within the prescribed range of flexion.
  - 28. The improvement of claim 25 wherein the prescribed range of flexion extends between about 0°
    - of flexion and a predetermined degree of flexion of about 60°
      
      of flexion, and the portion of the prescribed range of flexion extends between about 45°
      
      of flexion and the predetermined degree of flexion.
  - 29. The improvement of claim 25 wherein the stabilizing mechanism includes a post on one of the femoral component and the tibial component, the post having a cam surface, and a follower on the other of the femoral component and the tibial component for engaging the cam surface at least during articulation within the portion of the prescribed range of flexion.
  - 30. The improvement of claim 29 wherein the post is on the tibial component for projecting in a superior direction toward the femoral component, and the follower is on the femoral component.
  - 31. The improvement of claim 30 wherein the cam surface is located on a posterior aspect of the post, and the follower includes an anterior aspect for engaging the post along the cam surface.
  - 32. The improvement of claim 31 wherein the generally coronal plane is tangent to the cam surface at the intersection between the coronal plane and the sagittal plane.
  - 33. The improvement of claim 32 wherein the longitudinal plane is located so as to be tangent to the cam surface where the follower engages the post during articulation within the portion of the prescribed range of flexion.
  - 34. The improvement of claim 33 wherein the intersection between the coronal plane and the sagittal plane is located intermediate the first and second centers of curvature.
  - 35. The improvement of claim 34 wherein the first and second centers of curvature are symmetrical about the intersection between the coronal plane and the sagittal plane.
  - 36. The improvement of claim 35 wherein the intersection comprises a midpoint between the first and second centers of curvature.
  - 37. The improvement of claim 36 wherein the prescribed range of flexion extends between about 0°
    - of flexion and a predetermined degree of flexion of about 60°
      
      of flexion, and the portion of the prescribed range of flexion extends between about 45°
      
      of flexion and the predetermined degree of flexion.
  - 38. The improvement of claim 37 wherein the relative rotational movement between the femoral component and the tibial component is about 6°
    - during articulation within the prescribed range of flexion.

39. A method for emulating movements of a natural knee joint in a knee prosthesis upon implantation of the knee prosthesis to replace the natural knee joint, the natural knee joint having a lateral compartment and a medial compartment, the knee prosthesis including a femoral component having at least one condylar element with a condylar surface having a transverse axis of rotation and a tibial component including at least one articular surface for engagement with the condylar surface of the femoral component for articulation of the knee prosthesis through flexion about the transverse axis of rotation, the condylar surface and the articular surface being located in the one of the lateral and medial compartments upon implant of the knee prosthesis, the method comprising:
- enabling engagement between the condylar surface and the articular surface at positions along a generally arcuate track having a center of curvature;
  
  placing the center of curvature in a generally coronal plane;
  
  enabling relative rotational movement between the femoral component and the tibial component during articulation about the transverse axis of rotation for flexion within at least a prescribed range of flexion extending up to a predetermined degree of flexion while enabling relative rotational movement between the femoral component and the tibial component to take place about a longitudinal axis of rotation located essentially in a generally sagittal plane intersecting the coronal plane at an intersection and spaced a predetermined distance from the intersection; and
  
  maintaining the transverse axis of rotation in a generally medial-lateral longitudinal plane located in close proximity with the coronal plane, with the longitudinal plane spaced from the longitudinal axis of rotation essentially by the predetermined distance while moving the longitudinal plane about the longitudinal axis of rotation in response to relative rotational displacement between the femoral component and the tibial component, to intersect the coronal plane at angles corresponding to the relative rotational displacement during flexion within the prescribed range of flexion.
- View Dependent Claims (40, 41, 42, 43, 44, 45, 46, 47, 48, 49)
- - 40. The improvement of claim 39 wherein the coronal plane is spaced posteriorly from the longitudinal axis of rotation, and the longitudinal plane is rotated about the longitudinal axis of rotation along an arcuate path having a radius essentially equivalent to the predetermined distance during flexion within the prescribed range of flexion.
  - 41. The improvement of claim 40 wherein the longitudinal plane is maintained essentially tangent to the arcuate path during flexion within the prescribed range of flexion.
  - 42. The method of claim 39 wherein engagement between the condylar surface and the articular surface is essentially congruent at the positions along the generally arcuate track.
  - 43. The method of claim 39 including placing the canter of curvature in the other of the lateral and medial compartments.
  - 44. The method of claim 39 wherein the prescribed range of flexion extends between about 0°
    - of flexion and a predetermined degree of flexion of about 60°
      
      of flexion.
  - 45. The method of claim 39 wherein the relative rotational movement between the femoral component and the tibial component is about 6°
    - during articulation within the prescribed range of flexion.
  - 46. The method of claim 45 including coupling the femoral component with the tibial component for rotational stability during flexion within a portion of the prescribed range of flexion, while enabling relative rotational movement between the femoral component and the tibial component about the longitudinal axis of rotation during articulation about the transverse axis of rotation, with the transverse axis of rotation maintained essentially in the longitudinal plane, and the longitudinal plane moving about the longitudinal axis of rotation, essentially at the predetermined distance from the longitudinal axis.
  - 47. The improvement of claim 46 wherein the coronal plane is spaced posteriorly from the longitudinal axis of rotation, and the longitudinal plane is rotated about the longitudinal axis of rotation along an arcuate path having a radius essentially equivalent to the predetermined distance during flexion within the prescribed range of flexion.
  - 48. The improvement of claim 47 wherein the longitudinal plane is maintained essentially tangent to the arcuate path during flexion within the prescribed range of flexion.
  - 49. The method of claim 46 wherein the portion of the prescribed range of flexion extends between about 45°
    - of flexion and about 60°
      
      of flexion.

50. A method for emulating movements of a natural knee joint in a knee prosthesis upon implantation of the knee prosthesis to replace the natural knee joint, the knee prosthesis having a lateral compartment and a medial compartment, a femoral component including a lateral condylar element with a lateral condylar surface, a medial condylar element with a medial condylar surface, and a transverse axis of rotation, and a tibial component including a lateral articular surface for engagement with the lateral condylar surface of the femoral component in the lateral compartment and a medial articular surface for engagement with the medial condylar surface of the femoral component in the medial compartment for articulation of the knee prosthesis through flexion about the transverse axis of rotation, the method comprising:
- enabling engagement between the lateral condylar surface and the lateral articular surface along a first generally arcuate track having a first center of curvature;
  
  enabling engagement between the medial condylar surface and the medial articular surface along a second generally arcuate track having a second center of curvature;
  
  placing the first and second centers of curvature in a generally coronal plane;
  
  enabling relative rotational movement between the femoral component and the tibial component during articulation about the transverse axis of rotation for flexion within at least a prescribed range of flexion extending up to a predetermined degree of flexion while enabling relative rotational movement between the femoral component and the tibial component to take place about a longitudinal axis of rotation located essentially in a generally sagittal plane intersecting the coronal plane at an intersection and spaced a predetermined distance from the intersection; and
  
  maintaining the transverse axis of rotation in a generally medial-lateral longitudinal plane located in close proximity with the coronal plane, with the longitudinal plans spaced from the longitudinal axis of rotation essentially the predetermined distance while moving the longitudinal plane about the longitudinal axis of rotation in response to relative rotational displacement between the femoral component and the tibial component, to intersect the coronal plane at angles corresponding to the relative rotational displacement during flexion within the prescribed range of flexion.
- View Dependent Claims (51, 52, 53, 54, 55, 56, 57, 58, 59, 60)
- - 51. The improvement of claim 50 wherein the coronal plane is spaced posteriorly from the longitudinal axis of rotation, and the longitudinal plane is rotated about the longitudinal axis of rotation along an arcuate path having a radius essentially equivalent to the predetermined distance during flexion within the prescribed range of flexion.
  - 52. The improvement of claim 51 wherein the longitudinal plane is maintained essentially tangent to the arcuate path during flexion within the prescribed range of flexion.
  - 53. The method of claim 50 wherein the engagement between the lateral and medial condylar surfaces and the lateral and medial articular surfaces is essentially congruent at the positions along the first and second generally arcuate tracks.
  - 54. The method of claim 50 including placing the first center of curvature in the medial compartment and placing the second center of curvature in the lateral compartment.
  - 55. The method of claim 50 wherein the prescribed range of flexion extends between about 0°
    - of flexion and a predetermined degree of flexion of about 60°
      
      of flexion.
  - 56. The method of claim 55 wherein the relative rotational movement between the femoral component and the tibial component is about 6°
    - during articulation within the prescribed range of flexion.
  - 57. The method of claim 56 including coupling the femoral component with the tibial component for rotational stability during flexion within a portion of the prescribed range of flexion, while enabling relative rotational movement between the femoral component and the tibial component about the longitudinal axis of rotation during articulation about the transverse axis of rotation, with the transverse axis of rotation maintained essentially in the longitudinal plane, and the longitudinal plane moving about the longitudinal axis of rotation, essentially at the predetermined distance from the longitudinal axis.
  - 58. The improvement of claim 57 wherein the coronal plane is spaced posteriorly from the longitudinal axis of rotation, and the longitudinal plane is rotated about the longitudinal axis of rotation along an arcuate path having a radius essentially equivalent to the predetermined distance during flexion within the prescribed range of flexion.
  - 59. The improvement of claim 58 wherein the longitudinal plane is maintained essentially tangent to the arcuate path during flexion within the prescribed range of flexion.
  - 60. The method of claim 57 wherein the portion of the prescribed range of flexion extends between about 45°
    - of flexion and about 60°
      
      of flexion.

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Current Assignee
Howmedica Osteonics Corp. (Stryker Corporation)
Original Assignee
Howmedica Osteonics Corp. (Stryker Corporation)
Inventors
Axelson, Stuart L. Jr., Servidio, Damon J., Kester, Marcus A.
Primary Examiner(s)
Robert; Eduardo C.
Assistant Examiner(s)
Ramana; Anuradha

Application Number

US10/348,217
Publication Number

US 20040143339A1
Time in Patent Office

1,449 Days
Field of Search

623/16.11, 623/18.11, 623/20.14, 623/20.15, 623/20.21, 623/20.23, 623/20.24, 623/20.26, 623/20.27, 623/20.31, 623/20.32, 623/20.34, 623/20.35, 623/20.36
US Class Current

623/20.14
CPC Class Codes

A61F 2/3886 for stabilising knees again...

Emulating natural knee kinematics in a knee prosthesis

First Claim

1 Assignment

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Abstract

144 Citations

60 Claims

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Emulating natural knee kinematics in a knee prosthesis

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

144 Citations

60 Claims

Specification

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Solutions

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