RETRIEVABLE BIOARTIFICIAL IMPLANTS HAVING DIMENSIONS ALLOWING RAPID DIFFUSION OF OXYGEN AND RAPID BIOLOGICAL RESPONSE TO PHYSIOLOGICAL CHANGE, PROCESSES FOR THEIR MANUFACTURE, AND METHODS FOR THEIR USE
First Claim
1. A process for making a biocompatible implant, comprising the steps of:
- combining living tissue or cells to be implanted with a solution of an alginate, the concentration of alginate being sufficient to form a gel in the presence of a crosslinking agent;
contacting the resulting mixture with a solution of crosslinking agent in a concentration sufficient to gel said alginate; and
optionally, forming a coat layer thereon, said coat layer comprising a biocompatable alginate gel.
0 Assignments
0 Petitions
Accused Products
Abstract
Bioartificial implants and methods for their manufacture and use are described, particularly bioartificial pancreases. In particular, the implants may be thin sheets which enclose cells, may be completely biocompatible over extended periods of time and may not induce fibrosis. The high-density-cell-containing thin sheets are preferably completely retrievable, and have dimensions allowing maintenance of optimal tissue viability through rapid diffusion of nutrients and oxygen and also allowing rapid changes in the secretion rate of insulin and/or other bioactive agents in response to changing physiology. Implantations of living cells, tissue, drugs, medicines and/or enzymes, contained in the bioartificial implants may be made to treat and/or prevent disease.
-
Citations
3 Claims
-
1. A process for making a biocompatible implant, comprising the steps of:
-
combining living tissue or cells to be implanted with a solution of an alginate, the concentration of alginate being sufficient to form a gel in the presence of a crosslinking agent;
contacting the resulting mixture with a solution of crosslinking agent in a concentration sufficient to gel said alginate; and
optionally, forming a coat layer thereon, said coat layer comprising a biocompatable alginate gel. - View Dependent Claims (2)
-
-
3. A method of making a physiologically active and biocompatible cellular implant for implantation into a host body, said method comprising steps of:
-
(a) forming first and second films of first and second substantially uncross-linked polymer solutions, (b) forming a sandwich of a cell suspension layer of physiologically active cells in a substantially uncross-linked third polymer solution between said first and second films, and (c) diffusing cross-linking agent through said first and second films to the cell suspension layer until the first and second polymer solutions of said first and second films, respectively, and said cell suspension layer are cross-linked to form a gelled cellular implant.
-
Specification