AI Article Synopsis
- Scarring is a significant clinical issue affecting patients, as wound healing often leads to abnormal skin tissue organization and composition.
- A synthetic collagen-binding peptidoglycan has been developed that inhibits enzymes responsible for collagen degradation, showing promise in reducing scar tissue formation in a rat surgical model.
- The treatment resulted in improved collagen structure, strength, and reduced scarring, indicating its potential as a low-cost therapeutic option for better dermal wound healing.
Article Abstract
Scarring of the skin is a large unmet clinical problem that is of high patient concern and impact. Wound healing is complex and involves numerous pathways that are highly orchestrated, leaving the skin sealed, but with abnormal organization and composition of tissue components, namely collagen and proteoglycans, that are then remodeled over time. To improve healing and reduce or eliminate scarring, more rapid restoration of healthy tissue composition and organization offers a unique approach for development of new therapeutics. A synthetic collagen-binding peptidoglycan has been developed that inhibits matrix metalloproteinase-1 and 13 (MMP-1 and MMP-13) mediated collagen degradation. We investigated the synthetic peptidoglycan in a rat incisional model in which a single dose was delivered in a hyaluronic acid (HA) vehicle at the time of surgery prior to wound closure. The peptidoglycan treatment resulted in a significant reduction in scar tissue at 21 days as measured by histology and visual analysis. Improved collagen architecture of the treated wounds was demonstrated by increased tensile strength and transmission electron microscopy (TEM) analysis of collagen fibril diameters compared to untreated and HA controls. The peptidoglycan's mechanism of action includes masking existing collagen and inhibiting MMP-mediated collagen degradation while modulating collagen organization. The peptidoglycan can be synthesized at low cost with unique design control, and together with demonstrated preclinical efficacy in reducing scarring, warrants further investigation for dermal wound healing.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3133773 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0022139 | PLOS |
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