Toughening and Responsive Contractile Shape Memory Fibrous Membrane via Water for Mechanically Active Wound Dressing

IF 17.2 1区工程技术 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Advanced Fiber Materials Pub Date : 2024-07-09 DOI:10.1007/s42765-024-00463-z

Wen Liu, Wei Zhao, Kunrong Xie, Xue Feng Li, Yufu Wang, Deyan Kong, Yanju Liu, Jinsong Leng

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Abstract

Conventional wound dressings only protect passively against bacterial infection. Emerging mechanically active adhesive dressings (AADs) are inspired by the active closure of embryonic wounds. It can promote wound healing by actively contracting the wound bed. AADs meet the requirements of high toughness, stimulus–response, and dynamic adhesion properties, which are challenging. Hence, we construct a water-responsive shape memory polyurea fibrous membrane (PU-fm) featuring favorable toughness, wet-adhesion, breathability, absorbency of four times its weight, and antibacterial. First, the water-toughened electrospun PU-fm is fabricated using a homemade polyurea (PU) elastomer with multistage hydrogen bond networks as a spinning solution. Furthermore, a Janus-structured polyurea-polydopamine-silver fibrous membrane (PU@PDA@Ag-fm) is engineered, integrating antibacterial properties without compromising mechanical robustness. It demonstrates strong adhesion to the skin, actively promotes wound contraction, and enables adaptive wrapping of tissues of varying sizes by the water-driven shape memory effect. Antibacterial tests and wound healing experiments indicate that the PU@PDA@Ag-fm has favorable antibacterial properties against Escherichia coli (E.coli) and accelerates the wound healing rate by 20%. For the first time, water-responsive shape memory PU-fm as the AADs is constructed, providing a new strategy for wound management. This can be extended to applications in other smart devices for biomedicine such as tendon repair, and bioelectronic interfaces.

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通过水增韧和响应性收缩形状记忆纤维膜，用于机械活性伤口敷料

传统的伤口敷料只能被动地防止细菌感染。新兴的机械活性粘合敷料（AADs）受到胚胎伤口主动闭合的启发。它可以通过主动收缩伤口床来促进伤口愈合。AADs 需要满足高韧性、刺激响应和动态粘附性能等要求，具有很大的挑战性。因此，我们构建了一种水响应形状记忆聚脲纤维膜（PU-fm），它具有良好的韧性、湿粘附性、透气性、四倍于自身重量的吸水性和抗菌性。首先，使用具有多级氢键网络的自制聚脲（PU）弹性体作为纺丝溶液，制造出水增韧电纺聚脲纤维膜。此外，还设计了一种 Janus 结构的聚脲-多巴胺-银纤维膜（PU@PDA@Ag-fm），在不影响机械坚固性的情况下集成了抗菌特性。它对皮肤有很强的粘附性，能积极促进伤口收缩，并能通过水驱动的形状记忆效应对不同大小的组织进行自适应包裹。抗菌测试和伤口愈合实验表明，PU@PDA@Ag-fm 对大肠杆菌（E.coli）具有良好的抗菌性能，并能使伤口愈合速度加快 20%。这是首次将水响应形状记忆 PU-fm 作为 AADs 构建起来，为伤口管理提供了一种新策略。这可以扩展到其他生物医学智能设备中的应用，如肌腱修复和生物电子接口。

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来源期刊

Advanced Fiber Materials Multiple-

CiteScore

18.70

自引率

11.20%

发文量

109

期刊介绍： Advanced Fiber Materials is a hybrid, peer-reviewed, international and interdisciplinary research journal which aims to publish the most important papers in fibers and fiber-related devices as well as their applications.Indexed by SCIE, EI, Scopus et al. Publishing on fiber or fiber-related materials, technology, engineering and application.