US2011213470A1PendingUtilityA1

Methods for using a three-dimensional stromal tissue to promote angiogenesis

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Assignee: THEREGEN INCPriority: Apr 12, 1999Filed: Dec 29, 2010Published: Sep 1, 2011
Est. expiryApr 12, 2019(expired)· nominal 20-yr term from priority
A61P 9/10A61P 43/00A61L 27/3886A61L 27/3839A61L 27/507A61P 41/00A61L 27/3804A61L 27/3604A61L 2430/20A61L 27/3826
49
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Claims

Abstract

The present invention relates to a method for promoting blood vessel formation in tissues and organs. In particular, the method relates to implantation or attachment of an engineered three-dimensional stromal tissue to promote endothelialization and angiogenesis in the heart and related tissues. The three-dimensional stromal tissue of the present invention may be used in a variety of applications including, but not limited to, promoting repair of and regeneration of damaged cardiac muscle, promoting vascularization and healing during cardiac surgery, promoting blood vessel formation at anastomosis sites, and promoting vascularization and repair of damaged skeletal muscle, smooth muscle or connective tissue.

Claims

exact text as granted — not AI-modified
1 - 41 . (canceled) 
     
     
         42 . A method for effecting angiogenesis in ischemic heart tissue of a subject comprising
 contacting ischemic heart tissue of said subject with a three-dimensional stromal tissue comprising fibroblasts and connective tissue proteins naturally secreted by the fibroblasts, said cells being attached to and substantially enveloping a framework composed of a biocompatible, non-living material formed into a three-dimensional structure having interstitial spaces bridged by the fibroblasts;   wherein said stromal tissue is capable of effecting angiogenesis in ischemic heart tissue.   
     
     
         43 . The method of  claim 42  wherein the framework is composed of a biodegradable material. 
     
     
         44 . The method of  claim 43  wherein the biodegradable material is polyglycolic acid, catgut sutures, cellulose, gelatin, collagen, or dextran. 
     
     
         45 . The method of  claim 42  wherein the framework is a mesh. 
     
     
         46 . The method of  claim 42  wherein the stromal tissue is obtained directly from a fresh culture. 
     
     
         47 . The method of  claim 42  wherein the stromal tissue has been cryopreserved. 
     
     
         48 . The method of  claim 42  further comprising adhering the stromal tissue to the ischemic heart tissue by natural cellular attachment. 
     
     
         49 . The method of  claim 42  further comprising attaching the stromal tissue to the ischemic heart tissue by means of a biodegradable or non-biodegradable suture, a biologic glue, a synthetic glue, a laser dye, or a hydrogel. 
     
     
         50 . The method of  claim 42  wherein the ischemic tissue is of the heart epicardium. 
     
     
         51 . A method for effecting vascularization in damaged cardiac tissue of a subject, comprising
 attaching a three-dimensional stromal tissue to an epicardial or myocardial surface near a damaged region of cardiac tissue of a subject,   wherein the three-dimensional stromal tissue comprises fibroblasts and connective tissue proteins naturally secreted by the fibroblasts, said cells being attached to and substantially enveloping a framework composed of a biocompatible, non-living material formed into a three-dimensional structure having interstitial spaces bridged by the fibroblasts; and   wherein said stromal tissue is capable of effecting vascularization in damaged cardiac tissue.   
     
     
         52 . The method of  claim 51 , wherein the damaged region is ischemic. 
     
     
         53 . The method of  claim 51 , wherein said attaching comprises attaching the stromal tissue to the damaged region by means of a biodegradable or non-biodegradable suture, a biologic glue, a synthetic glue, a laser dye, or a hydrogel.

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