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An orthopedic component having multiple layers that are selected to provide an overall modulus that is substantially lower than the modulus of known orthopedic components to more closely approximate the modulus of the bone into which the orthopedic component is implanted. In one exemplary embodiment

An orthopedic component having multiple layers that are selected to provide an overall modulus that is substantially lower than the modulus of known orthopedic components to more closely approximate the modulus of the bone into which the orthopedic component is implanted. In one exemplary embodiment, the orthopedic component is an acetabular shell. For example, the acetabular shell may include an outer layer configured for securement to the natural acetabulum of a patient and an inner layer configured to receive an acetabular liner. The head of a femoral prosthesis articulates against the acetabular liner to replicate the function of a natural hip joint. Alternatively, the inner layer of the acetabular shell may act as an integral acetabular liner against which the head of the femoral prosthesis articulates.

대표청구항 ▼

1. An acetabular component configured for use in a hip replacement surgery, the acetabular component comprising: a porous layer configured to contact and interface with bone tissue when the acetabular component is implanted;an inner layer formed from an antioxidant stabilized crosslinked ultrahigh m

1. An acetabular component configured for use in a hip replacement surgery, the acetabular component comprising: a porous layer configured to contact and interface with bone tissue when the acetabular component is implanted;an inner layer formed from an antioxidant stabilized crosslinked ultrahigh molecular weight polyethylene and having a thickness of less than six millimeters, said inner layer configured to receive a femoral component; andan interdigitation layer defined by the distance over which said antioxidant stabilized crosslinked ultrahigh molecular weight polyethylene of said inner layer infiltrates pores of said porous layer,wherein the antioxidant stabilized crosslinked ultrahigh molecular weight polyethylene is prepared by a process that includes combining ultrahigh molecular weight polyethylene with an antioxidant to form a blend;processing the blend to consolidate the blend, wherein the consolidated blend has a melting point;preheating the consolidated blend to a preheat temperature below the melting point of the consolidated blend; andirradiating the preheated consolidated blend while maintaining the consolidated blend at a temperature below the melting point of the consolidated blend;wherein the antioxidant is substantially uniformly distributed throughout the antioxidant stabilized crosslinked ultrahigh molecular weight polyethylene. 2. The acetabular component of claim 1, wherein said inner layer has a thickness substantially equal to two millimeters. 3. The acetabular component of claim 1, wherein said porous layer has a porosity of at least 55 percent. 4. The acetabular component of claim 1, wherein said porous layer is defined by a porous metal having an elastic modulus of less than 15 GPa. 5. The acetabular component of claim 1, further comprising an effective stiffness between 0.1 GPa and 10 GPa. 6. The acetabular component of claim 1, further comprising an effective stiffness between 0.3 GPa and 1.5 GPa. 7. The acetabular component of claim 1, wherein said inner layer has a thickness of less than four millimeters. 8. The acetabular component of claim 1, wherein the blend includes between 0.1 and 3.0 weight percent antioxidant. 9. The acetabular component of claim 8, wherein the preheated consolidated blend is irradiated with a total irradiation dose of between 90 kGy and 1000 kGy. 10. The acetabular component of claim 9, wherein the antioxidant is tocopherol. 11. The acetabular component of claim 10, wherein the consolidated blend is secured to the porous layer prior to irradiation. 12. The acetabular component of claim 11, wherein said inner layer has a thickness of less than four millimeters. 13. The acetabular component of claim 12, wherein said porous layer has a porosity of at least 55 percent. 14. The acetabular component of claim 13, wherein said porous layer is defined by a porous metal having an elastic modulus of less than 15 GPa. 15. The acetabular component of claim 14, further comprising an effective stiffness between 0.1 GPa and 10 GPa. 16. The acetabular component of claim 15, further comprising an effective stiffness between 0.3 GPa and 1.5 GPa. 17. The acetabular component of claim 16, wherein said inner layer has a thickness substantially equal to two millimeters. 18. An acetabular component configured for use in a hip replacement surgery, the acetabular component comprising: a porous layer configured to contact and interface with bone tissue when the acetabular component is implanted, wherein the porous layer has a porosity of at least 55 percent;an inner layer formed from an antioxidant stabilized crosslinked ultrahigh molecular weight polyethylene and having a thickness of less than four millimeters, wherein the inner layer is configured to receive a femoral component; andan interdigitation layer defined by the distance over which said antioxidant stabilized crosslinked ultrahigh molecular weight polyethylene of said inner layer infiltrates pores of said porous layer,wherein the acetabular component has an effective stiffness of between 0.3 GPa and 1.5 GPa and the antioxidant stabilized crosslinked ultrahigh molecular weight polyethylene is prepared by a process that includes combining ultrahigh molecular weight polyethylene with tocopherol to form a blend having between 0.1 and 3.0 weight percent tocopherol;processing the blend to consolidate the blend, wherein the consolidated blend has a melting point;preheating the consolidated blend to a preheat temperature below the melting point of the consolidated blend; andirradiating the preheated consolidated blend with a total irradiation dose of between 90 kGy and 1000 kGy while maintaining the consolidated blend at a temperature below the melting point of the consolidated blend, wherein the consolidated blend is secured to the porous layer prior to irradiation;wherein the tocopherol is substantially uniformly distributed throughout the antioxidant stabilized crosslinked ultrahigh molecular weight polyethylene. 19. The acetabular component of claim 18, wherein the inner layer exhibits no visible deformations after undergoing 5 million cycles of uniaxial loading under at least 1,000 pounds of force.