Methods for forming porous-surfaced polymeric bodies
First Claim
1. A method of making a hollow polymeric implantable prosthetic body having a porous surface contiguous with a fluid-tight non-porous layer comprising(a) applying a curable fluid polymeric composition to substantially the entire outside surface of a leachable foam surfaced mandrel, said foam having open pores thereon, until said composition enters the open pores and some of said composition forms a continuous overcoat layer enveloping substantially the entire mandrel said composition capable of forming a polymeric body having resistance to a first solvent,(b) forming said composition into a cohesive polymeric body while said composition is in contact with said foam, and(c) leaching the foam from the polymeric body with said first solvent to form a hollow body having a porous inner surface integral with a non-porous outer surface.
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Abstract
A method of making a polymeric body having a porous surface by (a) applying a fluid polymeric composition to a mold surface of a leachable foam having open pores thereon, (b) curing the composition to form the polymeric body, and (c) leaching the foam from the polymeric body with a suitable solvent which does not dissolve the polymeric body. The method is especially suitable for making porous silicone elastomer bodies by using polystyrene foam as the mold material and the method is useful for forming hollow, porous-surfaced polymeric bodies, e.g. mammary and vascular prostheses.
194 Citations
11 Claims
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1. A method of making a hollow polymeric implantable prosthetic body having a porous surface contiguous with a fluid-tight non-porous layer comprising
(a) applying a curable fluid polymeric composition to substantially the entire outside surface of a leachable foam surfaced mandrel, said foam having open pores thereon, until said composition enters the open pores and some of said composition forms a continuous overcoat layer enveloping substantially the entire mandrel said composition capable of forming a polymeric body having resistance to a first solvent, (b) forming said composition into a cohesive polymeric body while said composition is in contact with said foam, and (c) leaching the foam from the polymeric body with said first solvent to form a hollow body having a porous inner surface integral with a non-porous outer surface.
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9. A method of forming a hollow silicone envelope for an implantable prosthesis having a porous outer surface and a non-porous inner layer comprising
(a) applying a fluid crosslinkable silicone elastomeric composition to substantially the outside surface of a mandrel having a handle, said outside mandrel surface being formed of a polystyrene foam having open pores thereon, until at least some of said silicone composition enters at least some of the open pores and some of said composition forms a non-porous overcoat layer enveloping substantially the entire mandrel (b) at least partially crosslinking said silicone composition while said composition is in contact with said foam and the overcoat layer of said composition forms a continuous non-porous layer to form a cohesive crosslinked body. (c) leaching the foam from the crosslinked body with a first solvent to form a hollow elastomeric body having a porous inner layer integral with a non-porous outer layer with a hole through the body where the handle was inserted, and (d) inverting said hollow elastomeric body so that the porous surface faces outwardly.
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10. A method of forming a fluid tight hollow implantable vascular prosthesis having a porous inner surface and a non-porous outer layer comprising:
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(a) applying a fluid crosslinkable silicone elastomer composition to the outside surface of a rod-shaped mandrel, said outside mandrel surface being formed of a polystyrene foam having open pores thereon, until at least some of said silicone composition enters at least some of the open pores and some of said composition forms a non-porous overcoat layer enveloping said mandrel, and (b) at least partially crosslinking said silicone composition while part of said composition is in contact with said foam to form a cohesive crosslinked body, (c) leaching the foam from the crosslinked body with a first solvent to form a hollow elastomeric body having an interior porous surface integral with a non-porous exterior layer.
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Specification