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Extracellular Matrix Bioscaffolds in Tissue Remodeling and Morphogenesis

Overview
Journal Dev Dyn
Publisher Wiley
Specialty Anatomy & Histology
Date 2015 Dec 25
PMID 26699796
Citations 77
Authors
Ilea T Swinehart
Stephen F Badylak
Affiliations
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Abstract

During normal morphogenesis the extracellular matrix (ECM) influences cell motility, proliferation, apoptosis, and differentiation. Tissue engineers have attempted to harness the cell signaling potential of ECM to promote the functional reconstruction, if not regeneration, of injured or missing adult tissues that otherwise heal by the formation of scar tissue. ECM bioscaffolds, derived from decellularized tissues, have been used to promote the formation of site appropriate, functional tissues in many clinical applications including skeletal muscle, fibrocartilage, lower urinary tract, and esophageal reconstruction, among others. These scaffolds function by the release or exposure of growth factors and cryptic peptides, modulation of the immune response, and recruitment of progenitor cells. Herein, we describe this process of ECM induced constructive remodeling and examine similarities to normal tissue morphogenesis.

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