Compressed porous materials suitable for implant
First Claim
1. A porous implantable device suitable for implantation in a living being, said implantable device comprising a high density porous polymer material having at least one property that is characteristic of at least one of cortical bone and cancellous bone of a human vertebrae, said at least one property being selected from the group consisting of compressive strength, modulus of elasticity, and tensile strength, wherein said high density is obtained by a process comprising compression applied to at least one porous polymer material, wherein said compression process causes the sacrifice of at least some pores in said porous polymer material, thereby forming a new shape, and further wherein said compression takes place in at least one of (i) a temperature above the glass transition temperature for said polymer, and (ii) when said polymer is in a plasticized condition, whereby molecules of said polymer move and rotate to achieve a lower energy state, thereby causing said high density porous material to permanently lock in the new shape, and wherein said device is arranged for implantation into said living being.
2 Assignments
0 Petitions
Accused Products
Abstract
A high strength porous polymeric material manufactured by a compression process is disclosed. The material results in a network of interconnected collapsed pores, which forces thin overlapping walls and passages to be created. The network provides permeable access for fluid migration throughout the material. The strength and/or permeability are advantageous for medical devices and implants.
-
Citations
26 Claims
- 1. A porous implantable device suitable for implantation in a living being, said implantable device comprising a high density porous polymer material having at least one property that is characteristic of at least one of cortical bone and cancellous bone of a human vertebrae, said at least one property being selected from the group consisting of compressive strength, modulus of elasticity, and tensile strength, wherein said high density is obtained by a process comprising compression applied to at least one porous polymer material, wherein said compression process causes the sacrifice of at least some pores in said porous polymer material, thereby forming a new shape, and further wherein said compression takes place in at least one of (i) a temperature above the glass transition temperature for said polymer, and (ii) when said polymer is in a plasticized condition, whereby molecules of said polymer move and rotate to achieve a lower energy state, thereby causing said high density porous material to permanently lock in the new shape, and wherein said device is arranged for implantation into said living being.
-
12. A high density porous material comprising at least some sacrificed pores, suitable for implantation into a living being, having at least one mechanical property being at least characteristic of at least one of cortical bone and cancellous bone of a human vertebrae, and being obtained by the process comprising the steps of:
-
a) providing at least one high porosity material comprising a plurality of pores in the form of cells, wherein said pores are defined by pore walls; b) inducing a glass-transition state within said at least one high porosity material; c) applying a compressive force within one or more dimensions while said high porosity material is in said glass transition state, said compressive force being sufficient to cause said molecules of said high porosity material to move and rotate to achieve a lower energy state, thereby causing said high porosity material to achieve a new size or shape, and further to sacrifice at least a portion of said pores, thereby creating said high density porous material; and d) cooling said high density porous material out of said glass transition state, wherein said high density porous material permanently maintains the new shape or size. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
-
- 24. A porous implantable device comprising a porous polymer that is compressed by at least about 40 percent and no more than about 87 percent of its original height, is arranged to maintain its compressed shape, and has at least one mechanical property being at least characteristic of bone of a human vertebrae.
Specification