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Versatile human cardiac tissues engineered with perfusable heart extracellular microenvironment for biomedical applications

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Title
Versatile human cardiac tissues engineered with perfusable heart extracellular microenvironment for biomedical applications
Author(s)
Sungjin Min; Suran Kim; Woo-Sup Sim; Yi Sun Choi; Hyebin Joo; Jae-Hyun Park; Su-Jin Lee; Hyeok Kim; Mi Jeong Lee; Inhea Jeong; Baofang Cui; Sung-Hyun Jo; Jin-Ju Kim; Seok Beom Hong; Yeon-Jik Choi; Kiwon Ban; Yun-Gon Kim; Jang-Ung Park; Hyang-Ae Lee; Hun-Jun Park; Seung-Woo Cho
Publication Date
2024-03
Journal
Nature Communications, v.15, no.1
Publisher
Nature Publishing Group
Abstract
Engineered human cardiac tissues have been utilized for various biomedical applications, including drug testing, disease modeling, and regenerative medicine. However, the applications of cardiac tissues derived from human pluripotent stem cells are often limited due to their immaturity and lack of functionality. Therefore, in this study, we establish a perfusable culture system based on in vivo-like heart microenvironments to improve human cardiac tissue fabrication. The integrated culture platform of a microfluidic chip and a three-dimensional heart extracellular matrix enhances human cardiac tissue development and their structural and functional maturation. These tissues are comprised of cardiovascular lineage cells, including cardiomyocytes and cardiac fibroblasts derived from human induced pluripotent stem cells, as well as vascular endothelial cells. The resultant macroscale human cardiac tissues exhibit improved efficacy in drug testing (small molecules with various levels of arrhythmia risk), disease modeling (Long QT Syndrome and cardiac fibrosis), and regenerative therapy (myocardial infarction treatment). Therefore, our culture system can serve as a highly effective tissue-engineering platform to provide human cardiac tissues for versatile biomedical applications. © The Author(s) 2024.; The application of engineered cardiac tissues is limited due to their immaturity and lack of functionality. Here, the authors develop an integrated culture platform featuring heart extracellular matrix cultured in a microfluidic chip to facilitate cardiac tissue development for versatile biomedical applications. © The Author(s) 2024.
URI
https://pr.ibs.re.kr/handle/8788114/15079
DOI
10.1038/s41467-024-46928-y
Appears in Collections:
Center for Nanomedicine (나노의학 연구단) > 1. Journal Papers (저널논문)
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