A non-swellable, anisotropic hydrogel patch with superior mechanical stability for internal anti-adhesion via physical barrier and inflammation regulation

IF 8.7 1区医学 Q1 ENGINEERING, BIOMEDICAL

Materials Today Bio Pub Date : 2025-06-25 DOI:10.1016/j.mtbio.2025.102017

Jianyu Qiu , Xitong Kang , Tao Liu , Jing Liu , Huansheng Liu , Xiyang Zhao , Yong Li , Qi Liu , Zhenzhen Nong , Qingwen Wang , Zhenzhen Liu

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引用次数: 0

Abstract

Tension-free repair operation in clinic needs an implantable mesh to repair the internal soft-tissue defect. However, the clinical patches fail to simultaneously achieve anti-adhesion, anti-deformation and tissue pro-healing. Herein, a high-performance anti-adhesion hydrogel patch is synthesized by one-step of directed freeze-casting technique via utilizing the FDA-approved poly (vinyl alcohol) (PVA) and carboxymethylcellulose nanofibril (CNF) as the network backbone without any chemical crosslinker. This fully physical crosslinked hydrogel exhibits remarkable mechanical performance because of the highly oriented microstructure and multiple hydrogen bonding, including the matching mechanical property with soft tissue, anti-tearing capability, the great 99 % retention of tensile stress and higher toughness after soaking at PBS for 7 days. And the extremely low swelling ratio of 5.9 % in PBS and combining the higher water-content is superior to other reported anti-swelling hydrogel. Importantly, besides as a robust physical barrier of this hydrogel patch, it also displays the excellent inflammatory regulation via capturing the positively charged proinflammatory cytokines because of the incorporation of the negatively charged CNF, synergistically promoting the remarkable anti-adhesion and tissue pro-healing efficiency. By integrating the anti-adhesion, tissue pro-healing, long-lasting anti-deformation in vivo and excellent bio-compatibility, this hydrogel provides a great candidate of anti-adhesion patch for tension-free repair operations.

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一种不可膨胀的、各向异性的水凝胶贴片，具有优异的机械稳定性，通过物理屏障和炎症调节来实现内部抗粘连

临床无张力修复手术需要植入式补片修复内部软组织缺损。但临床贴片不能同时实现抗粘连、抗变形和组织促愈合。本研究以经fda批准的聚乙烯醇（PVA）和羧甲基纤维素纳米纤维（CNF）为网络骨架，不添加任何化学交联剂，采用一步定向冷冻浇铸技术合成了高性能的抗黏附水凝胶贴片。这种全物理交联水凝胶由于其高度定向的微观结构和多重氢键，表现出优异的力学性能，包括与软组织的力学性能匹配，抗撕裂能力，在PBS中浸泡7天后，拉伸应力保留率高达99%，韧性更高。在PBS溶液中溶胀率极低（5.9%），且具有较高的含水量，优于其他已报道的抗溶胀水凝胶。重要的是，除了作为该水凝胶贴片的强大物理屏障外，由于结合了带负电荷的CNF，它还通过捕获带正电荷的促炎细胞因子而表现出出色的炎症调节作用，协同促进显著的抗粘连和组织促愈合效率。该水凝胶具有抗粘连、促组织愈合、体内持久抗变形和良好的生物相容性等特点，是无张力修复手术中抗粘连贴片的理想选择。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Materials Today Bio Multiple-

CiteScore

8.30

自引率

4.90%

发文量

303

审稿时长

30 days

期刊介绍： Materials Today Bio is a multidisciplinary journal that specializes in the intersection between biology and materials science, chemistry, physics, engineering, and medicine. It covers various aspects such as the design and assembly of new structures, their interaction with biological systems, functionalization, bioimaging, therapies, and diagnostics in healthcare. The journal aims to showcase the most significant advancements and discoveries in this field. As part of the Materials Today family, Materials Today Bio provides rigorous peer review, quick decision-making, and high visibility for authors. It is indexed in Scopus, PubMed Central, Emerging Sources, Citation Index (ESCI), and Directory of Open Access Journals (DOAJ).