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Spatially Controlled Gene Delivery of Morphogenetic Factors from Woven Scaffolds

$76,144R03FY2011ARNIH

Duke University, Durham NC

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Abstract

DESCRIPTION (provided by applicant): The regeneration of damaged or diseased skeletal tissues remains a significant clinical challenge and cause for human disability and discomfort. Tissue engineering and regenerative medicine are emerging as promising strategies for treating these conditions by creating living tissue substitutes composed of cells, bioactive factors, and a biodegradable scaffold. Tissue engineering has been particularly successful in creating uniform tissues, such as skin and cartilage. However, many injuries and diseases affect the interfaces between tissues, such as the transition between bone and cartilage. New tissue engineering methods need to be developed to recapitulate the structure and function of these biphasic tissue interfaces. This project develops a method to deliver bioactive factors to cells in a precise spatial pattern within a three dimensional scaffold. As a result, stem cells seeded onto these scaffolds will be stimulated to produce different tissue types in predefined patterns. In particular, we will generate osteochondral tissues with human mesenchymal stem cells through spatially controlled gene transfer of differentiation factors. Precise spatial control will be enabled by innovative methods of biomaterial-mediated gene delivery and a microscale weaving technique for creating 3D polymer scaffolds. This work is significant to developing tissue engineering strategies for creating complex structures that recapitulate the heterogeneity and function of native tissue interfaces.

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