Acetabular alignment apparatus and method
First Claim
Patent Images
1. An alignment apparatus for use in connection with the implant of a hip prosthesis at an implant site within a pelvis for aligning an acetabular device within the pelvis about an axis of abduction and an axis of anteversion passing through a center of rotation on an acetabular axis at the implant site, the acetabular axis, the axis of abduction and the axis of anteversion being mutually perpendicular, the pelvis including a first natural landmark located essentially in a first anatomical plane containing the axis of abduction and oriented at a known angle of abduction, the first natural landmark being spaced from the center of rotation along a first anatomical line extending between the center of rotation and the first natural landmark, and a second natural landmark located essentially in a second anatomical plane containing the axis of anteversion and oriented at a known angle of anteversion, the second natural landmark being spaced from the center of rotation along a second anatomical line extending between the center of rotation and the second natural landmark, the second anatomical line making an anatomical angle with the first anatomical line, the acetabular device having a polar axis and a device center of rotation, the alignment apparatus serving to orient the polar axis at a prescribed angle of abduction and a prescribed angle of anteversion, the alignment apparatus comprising:
- a positioning shaft for engaging the acetabular device, the positioning shaft having a first end, a second end, a known reference location, and a shaft axis extending longitudinally between the first and second ends of the positioning shaft for following a given direction relative to the polar axis of the acetabular device when the positioning shaft is engaged with the acetabular device, with the acetabular device placed relative to the known reference location on the positioning shaft and the shaft axis extending through the device center of rotation, and the second end of the positioning shaft located remote from the acetabular device;
a first locator;
a first mount coupling the first locator with the positioning shaft for enabling selective relative movement between the first locator and the known reference location along a first locator direction spaced laterally from the shaft axis and lying within a first alignment plane containing the shaft axis, such that upon selection of a predetermined location of the first locator along the first locator direction, relative to the known reference location, engagement of the first locator with the pelvis adjacent the first natural landmark will place the shaft axis in an orientation corresponding to the prescribed angle of abduction;
a second locator; and
a second mount coupling the second locator with the positioning shaft for enabling selective relative movement between the second locator and the known reference location along a second locator direction spaced laterally from the shaft axis and lying within a second alignment plane containing the shaft axis, the second alignment plane making an alignment angle with the first alignment plane, the alignment angle corresponding essentially to the anatomical angle between the first and second anatomical lines, such that upon selection of a predetermined location of the second locator along the second locator direction, relative to the known reference location, engagement of the second locator with the pelvis adjacent the second natural landmark will place the shaft axis in an orientation corresponding to the prescribed angle of anteversion.
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Abstract
An acetabular alignment method and apparatus utilize natural landmarks available on a pelvis to guide the alignment of an acetabular device in connection with the implant of a prosthetic hip joint at an implant site in the pelvis. The acetabular device is engaged with a positioning shaft having a longitudinal shaft axis, and locators are mounted upon the positioning shaft for placement adjacent selected landmarks on the pelvis to orient the shaft axis relative to the acetabular axis of a prepared acetabulum at the implant site in order to place the shaft axis at a prescribed angle of abduction and a prescribed angle of anteversion, thereby orienting the acetabular device at the appropriate angle of abduction and the appropriate angle of anteversion.
361 Citations
28 Claims
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1. An alignment apparatus for use in connection with the implant of a hip prosthesis at an implant site within a pelvis for aligning an acetabular device within the pelvis about an axis of abduction and an axis of anteversion passing through a center of rotation on an acetabular axis at the implant site, the acetabular axis, the axis of abduction and the axis of anteversion being mutually perpendicular, the pelvis including a first natural landmark located essentially in a first anatomical plane containing the axis of abduction and oriented at a known angle of abduction, the first natural landmark being spaced from the center of rotation along a first anatomical line extending between the center of rotation and the first natural landmark, and a second natural landmark located essentially in a second anatomical plane containing the axis of anteversion and oriented at a known angle of anteversion, the second natural landmark being spaced from the center of rotation along a second anatomical line extending between the center of rotation and the second natural landmark, the second anatomical line making an anatomical angle with the first anatomical line, the acetabular device having a polar axis and a device center of rotation, the alignment apparatus serving to orient the polar axis at a prescribed angle of abduction and a prescribed angle of anteversion, the alignment apparatus comprising:
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a positioning shaft for engaging the acetabular device, the positioning shaft having a first end, a second end, a known reference location, and a shaft axis extending longitudinally between the first and second ends of the positioning shaft for following a given direction relative to the polar axis of the acetabular device when the positioning shaft is engaged with the acetabular device, with the acetabular device placed relative to the known reference location on the positioning shaft and the shaft axis extending through the device center of rotation, and the second end of the positioning shaft located remote from the acetabular device;
a first locator;
a first mount coupling the first locator with the positioning shaft for enabling selective relative movement between the first locator and the known reference location along a first locator direction spaced laterally from the shaft axis and lying within a first alignment plane containing the shaft axis, such that upon selection of a predetermined location of the first locator along the first locator direction, relative to the known reference location, engagement of the first locator with the pelvis adjacent the first natural landmark will place the shaft axis in an orientation corresponding to the prescribed angle of abduction;
a second locator; and
a second mount coupling the second locator with the positioning shaft for enabling selective relative movement between the second locator and the known reference location along a second locator direction spaced laterally from the shaft axis and lying within a second alignment plane containing the shaft axis, the second alignment plane making an alignment angle with the first alignment plane, the alignment angle corresponding essentially to the anatomical angle between the first and second anatomical lines, such that upon selection of a predetermined location of the second locator along the second locator direction, relative to the known reference location, engagement of the second locator with the pelvis adjacent the second natural landmark will place the shaft axis in an orientation corresponding to the prescribed angle of anteversion. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
the first locator includes a first locator rod having a first locator end and an abutment at the first locator end for abutting the pelvis at the anterior superior iliac spine, and the first mount couples the first locator rod with the positioning shaft at a first reference location placed at a predetermined lateral distance from the shaft axis; and
the second mount includes a second locator rod having a second locator end, the second mount couples the second locator rod with the positioning shaft at a second reference location placed at a predetermined longitudinal distance from the known reference location and a predetermined lateral distance from the shaft axis, and the second locator direction makes an acute angle with the shaft axis.
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12. The invention of claim 11 including a grip at the second locator end for gripping the pelvis to secure the second locator end adjacent the greater sciatic notch.
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13. The invention of claim 12 wherein the grip includes a hook-like finger at the second locator end.
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14. The invention of claim 1 wherein the first mount includes a first arm secured to the positioning shaft and extending generally perpendicular to the shaft axis to a remote end located at a first reference location, the first arm having a first arm length between the first reference location and the remote end, and a first coupling adjacent the remote end coupling the first locator for selective movement relative to the first arm to place and secure the first locator in the predetermined location thereof for establishing the orientation of the shaft axis corresponding to the prescribed angle of abduction.
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15. The invention of claim 14 wherein the first locator includes a first locator rod having a first locator end for engaging the pelvis adjacent the first natural landmark.
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16. The invention of claim 14 including a second arm secured to the positioning shaft and extending generally perpendicular to the shaft axis from a near end to a far end located at a second reference location, the second arm having a second arm length between the near end and the far end and being approximately orthogonal to the first arm, the second mount including a second coupling adjacent the far end coupling the second locator for selective movement relative to the second reference location to place the second locator in the predetermined location thereof for establishing the orientation of the shaft axis corresponding to the predetermined angle of anteversion.
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17. The invention of claim 16 wherein the second locator includes a second locator rod having a second locator end for engaging the pelvis adjacent the second natural landmark.
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18. The invention of claim 1 including a manipulating handle at the second end of the positioning shaft.
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19. The invention of claim 1 wherein the first natural landmark is provided by an anterior superior iliac spine, the second natural landmark is provided by a corresponding greater sciatic notch, and the anatomical angle is approximately 90°
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the first and second planes are approximately orthogonal.
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20. A method for use in connection with the implant of a hip prosthesis at an implant site within a pelvis for aligning an acetabular device within the pelvis about an axis of abduction and an axis of anteversion passing through a center of rotation on an acetabular axis at the implant site, the acetabular axis, the axis of abduction and the axis of anteversion being mutually perpendicular, the pelvis including a first natural landmark located essentially in a first anatomical plane containing the axis of abduction and oriented at a known angle of abduction, the first natural landmark being spaced from the center of rotation along a first anatomical line extending between the center of rotation and the first natural landmark, and a second natural landmark located essentially in a second anatomical plane containing the axis of anteversion and oriented at a known angle of anteversion, the second natural landmark being spaced from the center of rotation along a second anatomical line extending between the center of rotation and the second natural landmark, the second anatomical line making an anatomical angle with the first anatomical line, the acetabular device having a polar axis and a device center of rotation, the method serving to orient the polar axis at a prescribed angle of abduction and a prescribed angle of anteversion, the method comprising:
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establishing a first locator point lying in a first alignment plane containing the polar axis of the acetabular device, the first locator point being in a first locator position relative to the polar axis and the device center of rotation, spaced a lateral distance from the polar axis and located at a prescribed longitudinal location relative to the device center of rotation;
establishing a second locator point lying in a second alignment plane containing the polar axis of the acetabular device, the second alignment plane making an alignment angle with the first alignment plane, the alignment angle corresponding essentially to the anatomical angle between the first and second anatomical lines, the second locator point being at a second locator position spaced a lateral distance from the polar axis and located at a prescribed longitudinal position from the device center of rotation;
placing the acetabular device at the implant site with the device center of rotation coincident with the center of rotation on the acetabular axis;
orienting the first alignment plane so as to include the first anatomical line within the first alignment plane;
placing the first locator point adjacent the first natural landmark while the first alignment plane is oriented so as to include the first anatomical line within the first alignment plane to orient the polar axis at the prescribed angle of abduction;
orienting the second alignment plane so as to include the second anatomical line within the second alignment plane; and
placing the second locator point adjacent the second natural landmark while the second alignment plane is oriented so as to include the second anatomical line within the second alignment plane to orient the polar axis at the prescribed angle of anteversion. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28)
the first locator point is placed against the pelvis adjacent the anterior superior iliac spine, and the second locator point is placed against the pelvis adjacent the corresponding greater sciatic notch; and
the second locator position is spaced a selectable distance from a reference location placed at a prescribed lateral distance from the polar axis and a prescribed longitudinal distance from the device center of rotation, the selectable distance between the second locator position and the reference location lying along a locator direction, the locator direction being placed within the second alignment plane and extending at an acute angle to the polar axis, and the polar axis is oriented at the prescribed angle of anteversion by setting the selectable distance to a predetermined distance.
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27. The invention of claim 26 wherein the first locator position is located in a further plane essentially normal to the polar axis and passing through the device center of rotation.
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28. The invention of claim 26 wherein the alignment angle is approximately 90°
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Specification
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Current AssigneeTimothy P. Lovell
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Original AssigneeHowmedica Osteonics Corp. (Stryker Corporation)
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InventorsLovell, Timothy Patrick
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Primary Examiner(s)Reip, David O.
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Assistant Examiner(s)Woo, Julian W.
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Application NumberUS09/549,000Time in Patent Office774 DaysField of Search606/91,99,81,102 623/22.11,22.23,22.24,22.35,22.36,22.37US Class Current606/91CPC Class CodesA61B 17/1666 for the acetabulumA61B 2090/061 for measuring dimensions, e...A61B 2090/067 for measuring anglesA61F 2/34 Acetabular cupsA61F 2/4603 for insertion or extraction...A61F 2/4609 of acetabular cupsA61F 2/4657 Measuring instruments used ...A61F 2/4684 Trial or dummy prosthesesA61F 2002/30538 for adjusting angular orien...A61F 2002/4668 for measuring anglesA61F 2002/4687 Mechanical guides for impla...A61F 2250/0006 for adjusting angular orien...
