Challenges and Advances in Materials and Fabrication Technologies of Small-Diameter Vascular Grafts

Authors
LI MEIXIANQian-Qi WeiHui-Lin MoYu RenWei ZhangHuan-Jun Lu정윤기
Issue Date
2023-06
Publisher
The Korean Society for Biomaterials | BioMed Central
Citation
Biomaterials Research, v.27, pp.1520 - 1541
Abstract
The arterial occlusive disease is one of the leading causes of cardiovascular diseases, often requiring revascularization. Lack of suitable small-diameter vascular grafts (SDVGs), infection, thrombosis, and intimal hyperplasia associated with synthetic vascular grafts lead to a low success rate of SDVGs (<?6 mm) transplantation in the clinical treatment of cardiovascular diseases. The development of fabrication technology along with vascular tissue engineering and regenerative medicine technology allows biological tissue-engineered vascular grafts to become living grafts, which can integrate, remodel, and repair the host vessels as well as respond to the surrounding mechanical and biochemical stimuli. Hence, they potentially alleviate the shortage of existing vascular grafts. This paper evaluates the current advanced fabrication technologies for SDVGs, including electrospinning, molding, 3D printing, decellularization, and so on. Various characteristics of synthetic polymers and surface modification methods are also introduced. In addition, it also provides interdisciplinary insights into the future of small-diameter prostheses and discusses vital factors and perspectives for developing such prostheses in clinical applications. We propose that the performance of SDVGs can be improved by integrating various technologies in the near future.
Keywords
ENDOTHELIAL GROWTH-FACTOR; SMOOTH-MUSCLE-CELLS; PROGENITOR CELLS; SCAFFOLDS; BLOOD; COCULTURE; BIOMATERIALS; PERFORMANCE; ADHESION; DACRON; Small-diameter vascular grafts; Surface modifcation; Cardiovascular diseases; Biomimetics; Tissue engineering
ISSN
1226-4601
URI
https://pubs.kist.re.kr/handle/201004/113616
DOI
10.1186/s40824-023-00399-2
Appears in Collections:
KIST Article > 2023
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