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An Intrapericardial Injectable Hydrogel Patch for Mechanical–Electrical Coupling with Infarcted Myocardium

Chaojie Yu, Zhiwei Yue, Mingyue Shi, Lijie Jiang, Shuang Chen, Mengmeng Yao, Qingyu Yu, Xiaojun Wu, Hong Zhang, Fanglian Yao, Changyong Wang, Hong Sun, Junjie Li

2022ACS Nano82 citationsDOI

Abstract

Although hydrogel-based patches have shown promising therapeutic efficacy in myocardial infarction (MI), synergistic mechanical, electrical, and biological cues are required to restore cardiac electrical conduction and diastolic-systolic function. Here, an injectable mechanical-electrical coupling hydrogel patch (MEHP) is developed via dynamic covalent/noncovalent cross-linking, appropriate for cell encapsulation and minimally invasive implantation into the pericardial cavity. Pericardial fixation and hydrogel self-adhesiveness properties enable the MEHP to highly compliant interfacial coupling with cyclically deformed myocardium. The self-adaptive MEHP inhibits ventricular dilation while assisting cardiac pulsatile function. The MEHP with the electrical conductivity and sensitivity to match myocardial tissue improves electrical connectivity between healthy and infarcted areas and increases electrical conduction velocity and synchronization. Overall, the MEHP combined with cell therapy effectively prevents ventricular fibrosis and remodeling, promotes neovascularization, and restores electrical propagation and synchronized pulsation, facilitating the clinical translation of cardiac tissue engineering.

Topics & Concepts

Materials scienceBiomedical engineeringCardiologyPericardiumMyocardial infarctionInternal medicineMedicineTissue Engineering and Regenerative MedicineElectrospun Nanofibers in Biomedical ApplicationsAdvanced Sensor and Energy Harvesting Materials
An Intrapericardial Injectable Hydrogel Patch for Mechanical–Electrical Coupling with Infarcted Myocardium | Litcius