Open AccessState-of-the-Art Strategies for the Vascularization of Three-Dimensional Engineered Organs
Author(s) -
Sang Il Min,
In Kap Ko,
James J. Yoo
Publication year - 2019
Publication title -
vascular specialist international
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.316
H-Index - 3
eISSN - 2288-7989
pISSN - 2288-7970
DOI - 10.5758/vsi.2019.35.2.77
Subject(s) - tissue engineering , scaffold , blood supply , medicine , biomedical engineering , computer science , surgery
Engineering three-dimensional (3D) implantable tissue constructs is a promising strategy for replacing damaged or diseased tissues and organs with functional replacements. However, the efficient vascularization of new 3D organs is a major scientific and technical challenge since large tissue constructs or organs require a constant blood supply to survive in vivo. Current approaches to solving this problem generally fall into the following three major categories: (a) cell-based, (b) angiogenic factor-based, and (c) scaffold-based. In this review, we summarize state-of-the-art technologies that are used to develop complex, stable, and functional vasculature for engineered 3D tissue constructs and organs; additionally, we have suggested directions for future research.