METHOD FOR FORMING AN INTEGRAL POROUS REGION IN A CAST IMPLANT
First Claim
1. A method for forming an integral porous region in an orthopedic implant comprising:
- providing an orthopedic implant pattern;
attaching a porous framework having a plurality of reticulated interstices into the orthopedic implant pattern to a desired depth;
forming a mold by encasing the orthopedic implant pattern and the porous framework in a mold material;
removing the orthopedic implant pattern from the mold and retaining the porous framework in the mold, whereby the mold has an interior surface formed by the orthopedic implant pattern and the porous framework;
heating the mold with the porous framework retained therein;
filling the mold with a molten metal such that the molten metal enters at least a portion of the reticulated interstices;
cooling the mold, the porous framework, and the molten metal to form an orthopedic implant with an exterior surface conforming to a mold interior surface and to the portion of the reticulated interstices;
removing the orthopedic implant from the mold to expose the exterior surface of the orthopedic implant; and
removing the porous framework from the orthopedic implant to expose an integral porous region having a plurality of reticulated pores.
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Accused Products
Abstract
Methods for forming an integral porous region in an orthopedic implant are provided. The method uses an orthopedic implant pattern, together with a porous framework having a plurality of reticulated interstices in a molding technique. After filling the mold with a molten metal such that the molten metal enters at least a portion of the reticulated interstices, followed by cooling, an orthopedic implant is formed. The porous framework is then removed to expose an integral porous region of reticulated porosity in the implant. The orthopedic implant may comprise a monolithic metallic body having an integral porous metal region. Reticulated porosity extends into the monolithic metallic body and is adapted to allow living tissue growth therein.
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Citations
18 Claims
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1. A method for forming an integral porous region in an orthopedic implant comprising:
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providing an orthopedic implant pattern; attaching a porous framework having a plurality of reticulated interstices into the orthopedic implant pattern to a desired depth; forming a mold by encasing the orthopedic implant pattern and the porous framework in a mold material; removing the orthopedic implant pattern from the mold and retaining the porous framework in the mold, whereby the mold has an interior surface formed by the orthopedic implant pattern and the porous framework; heating the mold with the porous framework retained therein; filling the mold with a molten metal such that the molten metal enters at least a portion of the reticulated interstices; cooling the mold, the porous framework, and the molten metal to form an orthopedic implant with an exterior surface conforming to a mold interior surface and to the portion of the reticulated interstices; removing the orthopedic implant from the mold to expose the exterior surface of the orthopedic implant; and removing the porous framework from the orthopedic implant to expose an integral porous region having a plurality of reticulated pores. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for forming an integral porous region in an orthopedic implant comprising:
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providing an orthopedic implant pattern comprising a wax; attaching a porous ceramic framework having a plurality of reticulated interstices to the orthopedic implant pattern by inserting a first portion of the porous ceramic framework into the orthopedic implant pattern whereby a second portion of the porous ceramic framework protrudes from an exterior surface of the orthopedic implant pattern; forming a mold by dipping the orthopedic implant pattern and the porous ceramic framework in a slurry comprising ceramic particles whereby the slurry fills at least a portion of the reticulated interstices in the second portion of the porous ceramic framework; drying the slurry; removing the orthopedic implant pattern from the mold and retaining the porous ceramic framework in the mold by melting the wax and pouring the melted wax out of the mold, whereby the mold has an interior surface formed by the orthopedic implant pattern and the first portion of the porous ceramic framework; heating the mold with the porous ceramic framework retained therein; pouring a molten metal into the mold such that the molten metal enters the reticulated interstices in the first portion as the molten metal fills the mold; cooling the mold and the molten metal thereby forming an orthopedic implant with an exterior surface conforming to a mold interior surface and the first portion of the porous ceramic framework; removing the orthopedic implant from the mold to expose the exterior surface of the orthopedic implant; and removing the porous ceramic framework from the orthopedic implant to expose an integral porous region.
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12. A method for forming an integral porous region in an orthopedic implant comprising:
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providing an orthopedic implant pattern; attaching a soluble porous framework having a plurality of reticulated interstices into the orthopedic implant pattern for a desired depth; dissolving the soluble porous framework with a solvent, whereby a replica region is formed to the desired depth in the orthopedic implant pattern; forming a mold by encasing the orthopedic implant pattern in a mold material, whereby the mold material penetrates into the replica region; removing the orthopedic implant pattern from the mold, whereby the mold has an interior surface formed by the orthopedic implant pattern and the replica region and whereby an integrated porous framework having a plurality of integrated reticulated interstices is formed; heating the mold; filling the mold with a molten metal such that the molten metal enters the integrated reticulated interstices; cooling the mold and the molten metal to form an orthopedic implant with an exterior surface conforming to a mold interior surface and the integrated reticulated interstices; removing the orthopedic implant from the mold to expose the exterior surface of the orthopedic implant; and removing the integrated porous framework from the orthopedic implant to expose an integral porous region having a plurality of reticulated pores.
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- 13. An orthopedic implant comprising a monolithic metallic body having an exterior surface that comprises an integral porous metal region along a portion thereof, wherein the integral porous metal region comprises reticulated porosity extending from the exterior surface into the monolithic metallic body such that when the monolithic metallic body is implanted in living tissue, living tissue can grow into the reticulated porosity.
Specification