心脏适应性导电水凝胶贴片助力构建用于心脏修复的机械-电各向异性微环境

Cardiac-Adaptive Conductive Hydrogel Patch Enabling Construction of Mechanical-Electrical Anisotropic Microenvironment for Heart Repair.

作者信息

Song Xiaoping, Zhang Jifeng, Shen Si, Liu Dan, Zhang Jie, Yin Wenming, Ye Genlan, Wang Leyu, Cai Liu, Hou Honghao, Qiu Xiaozhong

机构信息

Central Laboratory, The Fifth Affiliated Hospital, Southern Medical University, Guangzhou, Guangdong 510910, China.

Department of Anatomy, Neuroscience Laboratory for Cognitive and Developmental Disorders, Medical College of Jinan University, Guangzhou 510630, China.

出版信息

Research (Wash D C). 2023 Jun 8;6:0161. doi: 10.34133/research.0161. eCollection 2023.

DOI:10.34133/research.0161

PMID:37303598

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10250027/

Abstract

The biomimetic construction of a microstructural-mechanical-electrical anisotropic microenvironment adaptive to the native cardiac tissue is essential to repair myocardial infarction (MI). Inspired by the 3D anisotropic characteristic of the natural fish swim bladder (FSB), a novel flexible, anisotropic, and conductive hydrogel was developed for tissue-specific adaptation to the anisotropic structural, conductive, and mechanical features of the native cardiac extracellular matrix. The results revealed that the originally stiff, homogeneous FSB film was tailored to a highly flexible anisotropic hydrogel, enabling its potential as a functional engineered cardiac patch (ECP). In vitro and in vivo experiments demonstrated the enhanced electrophysiological activity, maturation, elongation, and orientation of cardiomyocytes (CMs), and marked MI repair performance with reduced CM apoptosis and myocardial fibrosis, thereby promoting cell retention, myogenesis, and vascularization, as well as improving electrical integration. Our findings offer a potential strategy for functional ECP and provides a novel strategy to bionically simulate the complex cardiac repair environment.

摘要

构建适应天然心脏组织的微观结构-力学-电学各向异性微环境对于修复心肌梗死至关重要。受天然鱼鳔（FSB）三维各向异性特征的启发，开发了一种新型的柔性、各向异性且导电的水凝胶，以实现对天然心脏细胞外基质的各向异性结构、导电和力学特征的组织特异性适应。结果表明，原本僵硬、均匀的FSB膜被加工成高度柔性的各向异性水凝胶，使其具有作为功能性工程心脏补片（ECP）的潜力。体外和体内实验证明，该水凝胶可增强心肌细胞（CMs）的电生理活性、成熟度、伸长和定向，具有显著的心肌梗死修复性能，可减少CM凋亡和心肌纤维化，从而促进细胞保留、肌生成和血管生成，并改善电整合。我们的研究结果为功能性ECP提供了一种潜在策略，并为仿生模拟复杂的心脏修复环境提供了一种新策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/290a/10250027/e672668dcc5a/research.0161.fig.001.jpg

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心脏适应性导电水凝胶贴片助力构建用于心脏修复的机械-电各向异性微环境

Cardiac-Adaptive Conductive Hydrogel Patch Enabling Construction of Mechanical-Electrical Anisotropic Microenvironment for Heart Repair.

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