用于生物膜清除和 O 生成的多功能水凝胶平台，具有光热效应，可用于糖尿病慢性伤口愈合。

Multifunctional hydrogel platform for biofilm scavenging and O generating with photothermal effect on diabetic chronic wound healing.

机构信息

Key Laboratory of Textile Science and Technology, Ministry of Education, College of Textiles, Donghua University, Shanghai 201620, China.

Innovation Center for Textile Science and Technology, Donghua University, Shanghai, China.

出版信息

J Colloid Interface Sci. 2022 Jul;617:542-556. doi: 10.1016/j.jcis.2022.03.040. Epub 2022 Mar 10.

DOI:10.1016/j.jcis.2022.03.040

PMID:35303638

Abstract

Diabetic wound treatment remains a major challenge due to the difficulties of eliminating bacterial biofilm and relieving wound hypoxia. To address these issues simultaneously, a multifunctional Dex-SA-AEMA/MnO/PDA (DSAMP) hydrogel platform was developed with excellent biocompatibility and porous structure. The hydrogel could absorb the exudate, maintain humidity and permeate oxygen, which was prepared by encapsulating polydopamine (PDA) and manganese dioxide (MnO) into Dex-SA-AEMA (DSA) hydrogel by UV irradiation. With the addition of PDA, the DSAMP hydrogel was proved to eliminate the biofilm after NIR photodynamic therapy (PTT, 808 nm) irradiation at 54 °C. Furthermore, in order to mitigate hypoxia wound microenvironment, MnO nanoparticles were added to convert the endogenous hydrogen peroxide (HO) into oxygen (O, 16 mg L). The diabetic wound in vivo treated by DSAMP hydrogel was completely healed on 14 days. It was revealed that the DSAMP hydrogel possessed a great potential as dressing for diabetic chronic wound healing.

摘要

由于消除细菌生物膜和缓解伤口缺氧的困难，糖尿病伤口的治疗仍然是一个主要挑战。为了同时解决这些问题，开发了一种具有优异生物相容性和多孔结构的多功能 Dex-SA-AEMA/MnO/PDA（DSAMP）水凝胶平台。该水凝胶可以通过将聚多巴胺（PDA）和二氧化锰（MnO）通过紫外光照射封装到 Dex-SA-AEMA（DSA）水凝胶中，来吸收渗出物，保持湿度并渗透氧气。加入 PDA 后，DSAMP 水凝胶在 54°C 下进行近红外光动力疗法（PTT，808nm）照射后被证明可以消除生物膜。此外，为了减轻缺氧伤口微环境，添加了 MnO 纳米粒子将内源性过氧化氢（HO）转化为氧气（O，16mg/L）。通过 DSAMP 水凝胶治疗的糖尿病动物模型伤口在 14 天内完全愈合。结果表明，DSAMP 水凝胶作为糖尿病慢性伤口愈合的敷料具有很大的潜力。

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用于生物膜清除和 O 生成的多功能水凝胶平台，具有光热效应，可用于糖尿病慢性伤口愈合。

Multifunctional hydrogel platform for biofilm scavenging and O generating with photothermal effect on diabetic chronic wound healing.

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