Author:
Chen Jun,Zhang Xixi,Millican Reid,Lynd Tyler,Gangasani Manas,Malhotra Shubh,Sherwood Jennifer,Hwang Patrick Taejoon,Cho Younghye,Brott Brigitta C.,Qin Gangjian,Jo Hanjoong,Yoon Young-sup,Jun Ho-Wook
Abstract
Atherosclerosis is the primary cause of hardening and narrowing arteries, leading to cardiovascular disease accounting for the high mortality in the United States. For developing effective treatments for atherosclerosis, considerable efforts have been devoted to developing in vitro models. Compared to animal models, in vitro models can provide great opportunities to obtain data more efficiently, economically. Therefore, this review discusses the recent progress in in vitro models for atherosclerosis studies, including traditional two-dimensional (2D) systems cultured on the tissue culture plate, 2D cell sheets, and recently emerged microfluidic chip models with 2D culture. In addition, advanced in vitro three-dimensional models such as spheroids, cell-laden hydrogel constructs, tissue-engineered blood vessels, and vessel-on-a-chip will also be covered. Moreover, the functions of these models are also summarized along with model discussion. Lastly, the future perspectives of this field are discussed.
Funder
National Heart, Lung, and Blood Institute
American Heart Association
National Research Foundation of Korea
Subject
Cardiology and Cardiovascular Medicine
Cited by
21 articles.
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