Literature DB >> 33723455

A perfusable, multifunctional epicardial device improves cardiac function and tissue repair.

Shixing Huang1, Dong Lei2, Qi Yang1, Yang Yang3, Chenyu Jiang1, Hongpeng Shi1, Bei Qian1, Qiang Long1, Wenyi Chen2, Youming Chen4, Lan Zhu5, Wenjie Yang5, Lan Wang5, Wangxi Hai6, Qiang Zhao7, Zhengwei You8, Xiaofeng Ye9.   

Abstract

Despite advances in technologies for cardiac repair after myocardial infarction (MI), new integrated therapeutic approaches still need to be developed. In this study, we designed a perfusable, multifunctional epicardial device (PerMed) consisting of a biodegradable elastic patch (BEP), permeable hierarchical microchannel networks (PHMs) and a system to enable delivery of therapeutic agents from a subcutaneously implanted pump. After its implantation into the epicardium, the BEP is designed to provide mechanical cues for ventricular remodeling, and the PHMs are designed to facilitate angiogenesis and allow for infiltration of reparative cells. In a rat model of MI, implantation of the PerMed improved ventricular function. When connected to a pump, the PerMed enabled targeted, sustained and stable release of platelet-derived growth factor-BB, amplifying the efficacy of cardiac repair as compared to the device without a pump. We also demonstrated the feasibility of minimally invasive surgical PerMed implantation in pigs, demonstrating its promise for clinical translation to treat heart disease.

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Year:  2021        PMID: 33723455     DOI: 10.1038/s41591-021-01279-9

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   53.440


  58 in total

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4.  Extracellular matrix derived from Wharton's Jelly-derived mesenchymal stem cells promotes angiogenesis via integrin αVβ3/c-Myc/P300/VEGF.

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5.  Myocardial infarct border demarcation by dual-wavelength photoacoustic spectral analysis.

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  8 in total

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