Method of making an implantable joint prosthesis
First Claim
1. A method of making an implantable joint prosthesis, comprising the steps of:
- (a) ascertaining the geometry of a bone cavity in a bone adapted to receive an implantable joint prosthesis by scanning said bone by irradiation;
(b) determining a lie of a geometrical centroid axis from the geometry ascertained in step (a);
(c) developing a shaft core region extending along said axis by finite element analysis of said geometry with the boundary conditions(c1) that a shaft core formed by said region along said axis must have an undercut-free configuration, and(c2) that there must be a uniform stress distribution along said shaft of normal stresses arising in a shaft/bone transition region;
(d) establishing a configuration of a surface region on said core considering condition (c1) and in accordance with the result of condition (c2); and
(e) fabricating a shaft of an implantable joint prosthesis with said core and said surface region.
1 Assignment
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Accused Products
Abstract
A method of making a joint implant prosthesis which has a shaft adapted to fit into the bone cavity of a tubular bone and having a core region and a shaft region. The geometry of the bone cavity is determined by an irradiation method and based upon the detected geometry, the shaft is dimensioned. First a geometric centroid axis of the bone passage is determined and then the core region built up by computer around this axis with the aid of finite element analysis based upon geometry of the bone cavity. The boundary conditions of an undercut-free shaft and uniform distribution of the normal stresses in the shaft bone transition region are observed. The second boundary condition is also used as a control in the coating of the core with synthetic bone material and in the configuration of the surface region.
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Citations
15 Claims
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1. A method of making an implantable joint prosthesis, comprising the steps of:
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(a) ascertaining the geometry of a bone cavity in a bone adapted to receive an implantable joint prosthesis by scanning said bone by irradiation; (b) determining a lie of a geometrical centroid axis from the geometry ascertained in step (a); (c) developing a shaft core region extending along said axis by finite element analysis of said geometry with the boundary conditions (c1) that a shaft core formed by said region along said axis must have an undercut-free configuration, and (c2) that there must be a uniform stress distribution along said shaft of normal stresses arising in a shaft/bone transition region; (d) establishing a configuration of a surface region on said core considering condition (c1) and in accordance with the result of condition (c2); and (e) fabricating a shaft of an implantable joint prosthesis with said core and said surface region. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of making an implantable joint prosthesis, comprising the steps of:
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(a) ascertaining the geometry of a bone cavity in a bone adapted to receive an implantable joint prosthesis by scanning said bone by irradiation; (b) determining a lie of a geometrical centroid axis from the geometry ascertained in step (a); (c) developing a shaft core region extending along said axis by finite element analysis of said geometry with the boundary conditions (c1) that a shaft core formed by said region along said axis must have an undercut-free configuration, and (c2) that there must be a uniform stress distribution along said shaft of normal stresses arising in a shaft/bone transition region; (d) establishing a configuration of a surface region on said core considering condition (c1) and in accordance with the result of condition (c2); and (e) selecting from a collection of implantable joint shafts a shaft of an implantable joint prosthesis for said bone with said core and said surface region. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A method of forming a joint prosthesis implant, comprising the steps of:
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(a) ascertaining the geometry of a bone cavity in a bone adapted to receive an implantable joint prosthesis by scanning said bone by irradiation; (b) determining a lie of a geometrical centroid axis from the geometry ascertained in step (a); (c) developing a shaft core region extending along said axis by finite element analysis; (d) establishing a configuration of a surface region on said core by applying a coating of a synthetic bone material thereto in response to said geometry and said analysis and configured to provide, on implantation, a uniform stress distribution for normal stresses in a bone/shaft transition region; and (e) implanting the shaft provided with said coating in said cavity. - View Dependent Claims (14, 15)
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Specification