Electret‐Inspired Charge‐Injected Hydrogel for Scar‐Free Healing of Bacterially Infected Burns Through Bioelectrical Stimulation and Immune Modulation

Electret‐Inspired Charge‐Injected Hydrogel for Scar‐Free Healing of Bacterially Infected Burns Through Bioelectrical Stimulation and Immune Modulation

Abstract In this study, an electret‐inspired, charge‐injected hydrogel called QOSP hydrogel (QCS/OD/SDI/PANI/PS/Plasma) that promotes scar‐free healing of bacteria‐infected burns through bioelectrical stimulation and immune modulation, is presented. The hydrogel, composed of quaternized chitosan (QC...

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Main Authors: Mujie Liu, Yuheng Wang, Haodong Wang, Lihong Qi, Yuxuan Shang, Jiajie Song, Xiulong Feng, Yiwei Chen, Waqar Ali Memon, Yuping Shen, Xiaodong Wu, Jiangbei Cao, Yifan Zhao, Zhuangde Jiang, Dingxin Liu, Shareen Shafique, Shengtao Li, Guanghao Lu, Zhixiang Wei, Zhijie Liu, Kun Zhou, Yuping Quan, Xiaoyu Zhang, Xin Zou, Xuefeng Wang, Na Liu, Yaqing Zhang, Yiwei Hu, Chao Han, Wen Wang
Format: Article
Language:English
Published: Wiley 2025-04-01
Series:Advanced Science
Subjects:
bacterially infected burns
bioelectrical stimulation
charge‐injected hydrogel
electrets
fibrosis inhibition
immune modulation
Online Access:https://doi.org/10.1002/advs.202411889
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Summary:Abstract In this study, an electret‐inspired, charge‐injected hydrogel called QOSP hydrogel (QCS/OD/SDI/PANI/PS/Plasma) that promotes scar‐free healing of bacteria‐infected burns through bioelectrical stimulation and immune modulation, is presented. The hydrogel, composed of quaternized chitosan (QCS), oxidized dextran (OD), sulfadiazine (SDI), polystyrene (PS), and polyaniline nanowires (PANI), forms a conductive network capable of storing and releasing electric charges, emulating an electret‐like mechanism. This structure delivers bioelectrical signals continuously, enhancing wound healing by regulating immune responses and minimizing fibrosis. In a mouse model of second‐degree burns infected with Staphylococcus aureus (SA) and Pseudomonas aeruginosa (PA), the hydrogel accelerates wound healing by 32% and reduces bacterial load by 60%, significantly inhibited scar formation by 40% compared to controls. QOSP hydrogel modulates the Th1/Th2 immune balance toward a Th1‐dominant antifibrotic state through quaternized chitosan, thereby reducing collagen deposition by 35%. Electro‐dielectric characterization reveals a dielectric constant of 6.2, a 34% improvement in conductivity (3.33 × 10−5 S/m) and a 30 °C increase in thermal stability. Proteomic analysis highlights a 50% down‐regulation of pro‐inflammatory and pro‐fibrotic pathways, suggesting a controlled immune response conducive to scar‐free healing. This study underscores the potential of bioelectrically active hydrogels as a novel approach for treating infected wounds prone to scarring.
ISSN:2198-3844

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