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Unleashing the healing potential: Exploring next-generation regenerative protein nanoscaffolds for burn wound recovery

Engineering and Technology

Unleashing the healing potential: Exploring next-generation regenerative protein nanoscaffolds for burn wound recovery

L. Si, X. Guo, et al.

This groundbreaking research by Liangwei Si, Xiong Guo, Hriday Bera, Yang Chen, Fangfang Xiu, Peixin Liu, Chunwei Zhao, Yasir Faraz Abbasi, Xing Tang, Vito Foderà, Dongmei Cun, and Mingshi Yang reveals that α-lactalbumin-based electrospun nanofibrous scaffolds significantly outperform other regenerative protein scaffolds in healing burn wounds, thanks to their ability to boost serotonin production at wound sites.

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Playback language: English
Abstract
This study established the superior efficacy of α-lactalbumin (ALA)-based electrospun nanofibrous scaffolds (ENs) in burn wound healing compared to other regenerative protein scaffolds. Four composite ENs (LZM/PCL, BSA/PCL, COL/PCL, and ALA/PCL) were fabricated using bovine serum albumin, collagen type I, lysozyme, and ALA blended with poly(ε-caprolactone). ALA/PCL ENs demonstrated enhanced fibroblast proliferation and adhesion, better regenerative skin tissue maturity, and comparable wound healing to a collagen sponge on a third-degree burn model. This enhanced healing was attributed to ALA's ability to promote serotonin production at wound sites. The study concludes that ALA shows greater potential for burn wound healing than other regenerative proteins within nanofibrous scaffolds.
Publisher
Asian Journal of Pharmaceutical Sciences
Published On
Oct 21, 2023
Authors
Liangwei Si, Xiong Guo, Hriday Bera, Yang Chen, Fangfang Xiu, Peixin Liu, Chunwei Zhao, Yasir Faraz Abbasi, Xing Tang, Vito Foderà, Dongmei Cun, Mingshi Yang
Tags
α-lactalbumin
burn wound healing
electrospun scaffolds
fibroblast proliferation
serotonin production
regenerative proteins

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