Claims
- 1. A modular femoral hip implant trial device for providing independent adjustment of the anteversion angle, vertical offset, and horizontal offset thereof, the modular trial implant comprising:
a trial body component having a proximal end and a distal end, the trial body component defining a longitudinal axis between the proximal end and the distal end, the distal end of the trial body component being configured for placement within a bore in a bone, so that the cross-sectional edge of the trial body contacts the inner “endosteal” surface of the prepared femur, and a hub connection site configured at the proximal end of the trial body; a hub component having a proximal end and a distal end, the hub defining a longitudinal axis between the proximal end and the distal end, a neck component connection site configured at the proximal end of the hub component, a trial body component connection site configured at the distal end of the hub component, and an anteversion angle adjustment mechanism for selectively adjusting the hub component from a first orientation to a second orientation, wherein the neck component connection site is adjusted from a first radial location to a second radial location with respect to its rotational position about the longitudinal axis of the trial body; and a neck component having a proximal end and a distal end, a hub component connection site configured at the distal end of the neck component, and the proximal end of the neck component configured to receive a head thereon.
- 2. A modular femoral hip trial implant according to claim 1 wherein the hub component comprises a collet taper being extending into the distal end thereof, the collet taper being configured to receive a draw bolt with a flared end drawn therein so as to expand an outer surface of the hub component to engage an inner bore within the trial body component.
- 3. A modular femoral hip trial implant device according to claim 2 wherein the anteversion angle adjustment mechanism comprises loosening the draw bolt so as to permit rotation of the hub component about the longitudinal axis thereof and tightening the draw bolt so as to restrict rotation of the hub component about the longitudinal axis thereof.
- 4. A modular femoral hip trial implant device according to claim 1 wherein the hub component comprises a first portion and a second portion, the first portion having serrated surfaces comprising radially oriented serrations, said surfaces configured on a proximally facing section thereof, the second portion having serrated surfaces corresponding to the serrated surfaces of the first portion, the serrated surfaces of the second portion configured on a distally facing section of the second portion, and the serrated surfaces of the first portion and the serrated surfaces of the second portion being selectively engagable so as to (1) lock the first portion relative to the second portion and hence relative to the trial body component at a given anteversion angle when the serrated surfaces of the first portion and the serrated surfaces of the second portion are in engagement with one another, and (2) release the first portion relative to the second portion and hence relative to the trial body component for adjustment of the given anteversion angle to another anteversion angle when the serrated surfaces of the first portion and the serrated surfaces of the second portion are disengaged from one another.
- 5. A modular femoral hip trial implant device according to claim 1 wherein the trial body component connection site comprises a boss disposed in the hub component and the hub component connection site comprises a slot disposed in the trial body component and configured to mate with the boss.
- 6. A modular femoral hip trial implant device according to claim 1 wherein the trial neck component connection site comprises a slot disposed in the hub component and the hub component connection site comprises a tee boss disposed in the trial neck component and configured to mate with the slot.
- 7. A modular femoral hip trial implant device according to claim 1 wherein the trial body component connection site comprises a protrusion having a non-circular periphery disposed in the hub component and the hub component connection site comprises a recess formed in the trial body component and therein configured to mate with the protrusion of the trial body component connection site disposed in the hub component.
- 8. A modular femoral hip trial implant device according to claim 1 wherein the trial neck component connection site comprises a protrusion having a non-circular periphery disposed in the hub component and the hub component connection site comprises a recess formed in the trial neck component and therein configured to mate with the protrusion of the trial neck component connection site disposed in the hub component.
- 9. A modular femoral hip trial implant device according to claim 1 wherein a femoral head component is removably attached to the proximal end of the neck component.
- 10. A modular femoral hip trial implant device according to claim 1 wherein a femoral head component is fixedly attached to the proximal end of the neck component.
- 11. A modular femoral hip trial implant device according to claim 1 wherein the hub component and the trial body component are removably attached to one another.
- 12. The system of claim 1 wherein:
(a) the rotational position of a hub with respect to a trial body may be established or adjusted without disengaging the trial neck from the hub; and (b) the appropriate size trial neck may be established or adjusted without disrupting the orientation/rotational position of a hub with respect to a trial body.
- 13. A modular femoral hip trial implant device according to claim 1 wherein the hub component and the trial body component are selectively movable relative to one another yet inseparable from one another.
- 14. A system for trial implantation of a modular femoral hip implant, the system providing independent adjustment of the anteversion angle, horizontal offset and vertical offset of the modular femoral implant, the system comprising:
a plurality of trial body components, each one of the trial body components having a proximal end and a distal end, the trial body component defining a longitudinal axis between the proximal end and the distal end, the distal end of the trial body component being configured for placement within a bore in a bone, and a hub connection site configured at the proximal end of the trial body; a plurality of hub components, each one of the hub components having a proximal end and a distal end, the hub defining a longitudinal axis between the proximal end and the distal end, a neck component connection site configured at the proximal end of the hub component, a trial body component connection site configured at the distal end of the hub component, and an anteversion angle adjustment mechanism for selectively adjusting the hub component from a first orientation to a second orientation, wherein the neck component connection site is adjusted from a first radial location to a second radial location with respect to its rotational position about the longitudinal axis of the trial body; and a plurality of neck components, each one of the neck components having a proximal end and a distal end, a hub component connection site configured at the distal end of the neck component, and the proximal end of the neck component configured to receive a head thereon; wherein one from the plurality of trial body components is selected based on a geometry of a patient, one from the plurality of hub components is selected based on a geometry of a patient, and one from the plurality of neck components is chosen based on a geometry of a patient.
- 15. A system for trial implantation of a femoral hip prosthesis which allows for independent establishment and adjustment of anteversion, horizontal offset, and vertical offset, the system comprising a plurality of trial bodies, a hub, a plurality of trial necks and a plurality of trial femoral heads,
wherein each of the trial bodies register in a preformed cavity in the bone, and have a hub component connection site configured at the proximal end of the trial body component; wherein the hub is configured to be rigidly fixed to one of the trial bodies in a plurality of rotational positions with respect to the trial body, and comprises a trial neck component connection site configured at the proximal end of the hub component, wherein each of the trial necks comprises a hub component connection site configured at the distal end of the trial neck component, and has a geometry that reproduces one of the available horizontal and vertical neck offsets available for implantation, and includes a mechanism for receiving the trial femoral heads, wherein each of the plurality of trial femoral heads has a mechanism for attaching to the trial necks, and has a geometry that reproduces the offsets of the femoral head implants.
- 16. The system of claim 15 wherein a hub is movable relative to, but inseparable from, a trial body.
- 17. The system of claim 15 wherein a hub is removable from a trial body.
- 18. The system of claim 15 wherein the hub can be fixed in discrete increments with respect to the trial body.
- 19. The system of claim 15 wherein the hub can have infinite orientation with respect to the trial body.
- 20. The system of claim 15 wherein a trial neck can be made integral with a trial femoral head.
- 21. The system of claim 15 wherein:
(a) the rotational position of a hub with respect to a trial body may be established or adjusted without disengaging the trial neck from the hub; and (b) the appropriate size trial neck may be established or adjusted without disrupting the orientation/rotational position of a hub with respect to a trial body.
- 22. A method for trial implantation of a femoral hip prosthesis, comprising:
providing a trial implant system comprising:
a series of trial bodies incrementally sized for a range of patients; a hub that can be fixed to the trial body in a variety of rotational positions; a series of trial neck components that attach to the hub, wherein the necks are available in a variety of dimensional combinations that allow for incremental adjustment of horizontal offset, vertical offset or a combination of both horizontal offset and vertical offset; and a series of trial femoral heads that attach to the trial neck components, wherein the heads are available in a variety of dimensional combinations that allow for incremental adjustments of the neck length; trialing the system in the patient; adjusting the rotational position of the hub with a respect to the trial body without disengaging the trial neck from the hub; and retrialing the system in the patient.
- 23. A method for trial implantation of a femoral hip prosthesis, comprising:
providing trial implant system comprising:
a series of trial bodies incrementally sized for a range of patients; a hub that can be fixed to the trial body in a variety of rotational positions; a series of trial neck components that attach to the hub, wherein the necks are available in a variety of dimensional combinations that allow for incremental adjustment of horizontal offset, vertical offset or a combination of both horizontal offset and vertical offset; and a series of trial femoral heads that attach to the trial neck components, wherein the heads are available in a variety of dimensional combinations that allow for incremental adjustments of the neck length; trialing the system in the patient; adjusting the horizontal offset, vertical offset, or combined offset of the trial neck without disrupting the orientation/rotational position of the hub with respect to the trial body; and retrialing the system in the patient.
REFERENCE TO PENDING PRIOR PATENT APPLICATION
[0001] This patent application claims benefit of pending prior U.S. Provisional Patent Application Serial No. 60/378,989, filed May 9, 2002 by Michael A. Serra et al. for MODULAR IMPLANT TRIALING SYSTEM AND METHOD (Attorney's Docket No. HAYES-9 PROV), which patent application is hereby incorporated herein by reference.
Provisional Applications (1)
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Number |
Date |
Country |
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60378989 |
May 2002 |
US |