Journal
JOURNAL OF COMPOSITES SCIENCE
Volume 7, Issue 5, Pages -Publisher
MDPI
DOI: 10.3390/jcs7050192
Keywords
composite dressing; scar healing; pressure garment therapy; silicone gel sheeting; dual therapy; warp insertions mobility
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This study developed a new PGT-SGS composite using pre-strained screen printing, which combined pressure garment therapy and silicone gel sheeting for scar management. The 3D channel structure allowed trauma-free active-fluid transport.
Silicone gel sheeting (SGS) and pressure garment therapy (PGT) are the International Clinical Recommendations on Scar Management's (ICRSM) two principal non-invasive scar-healing procedures. This study created a new PGT-SGS composite (PGF-Biopor((R))AB-based) via pre-strained screen printing. The Biopor((R))AB hydrophobicity and nylon-hydrophilicity enabled self-pumping for PGT-SGS dual therapy and pressure-driven warp insertions mobility facilitates active-fluid transportation. Integrating both therapies in a single PGT-SGS composite achieved efficacy optimization, and the 3D channel structure allowed trauma-free active-fluid transport. The 3D channel topology enables smooth diffusional transport in active-fluid transport environments-and active nylon absorbency improved water uptake and enhanced permeability capabilities with sustainability achieved dynamic hydration. The sole use of PGF-Biopor((R))AB composite in empirical trials verified dual therapy with trauma-free active-fluid transport with one-month efficacy, providing a new route for dual treatment and active scar management.
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