Journal
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A
Volume 90A, Issue 3, Pages 641-647Publisher
WILEY
DOI: 10.1002/jbm.a.32124
Keywords
necrotic ulcer; heparan sulfate mimetic; glycosaminoglycan; collagen
Funding
- OTR3
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Nonhealing Wounds remain a major health problem whose treatment is challenging and costly. Treatments based oil cells or growth factors are still not very,cry effective. We developed all entirely novel strategy consisting in treatment of the wound-tissue matrix with biopolymers engineered to mimic heparan Sulfates called OTR4120. This compound was dextran polymer with sulfated and carboxymethyl groupments. After binding to matrix proteins, the heparan-sulfate-mimicking polymer protects the microenvironment, maintaining the normal production of signals and growth factors needed for healing to occur.. Here, we show that a specific biopolymer accelerates ulcer Closure and improves re-epithelialization and dermal-matrix-component remodeling. OTR4120 treatment was associated with faster maturation of epidermal structures, most notably regarding the number of epithelial-cell layers, and with in appearance that more closely resembled normal skill. Treatment had also a main effect oil collagen I and III expression. Necrotic skill ulcers induced in mice with doxorubicin recovered normal collagen levels and organization, with no evidence of fibrosis. Thus, appropriate polymer-based matrix therapy is a valid and simple alternative to regenerative medicine. (C) 2008 Wiley Periodicals, Inc. J Biomed Mater Res 90A: 641-647, 2009
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