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Construction of vascular grafts based on tissue-engineered scaffolds

Cardiovascular disease (CVD) ranks among the leading causes of morbidity and mortality globally, primarily due to arterial occlusive disease. Vascular bypass remains the cornerstone of treatment; however, many patients lack suitable autologous vessels (e.g., saphenous vein) for grafting. Tissue-engi...

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Published in:	Materials today bio 2024-12, Vol.29, p.101336, Article 101336
Main Authors:	Lang, Zhongliang, Chen, Tianao, Zhu, Shilu, Wu, Xizhi, Wu, Yongqi, Miao, Xiaoping, Wang, Qiang, Zhao, Liping, Zhu, Zhiqiang, Xu, Ronald X.
Format:	Article
Language:	English
Subjects:	Blood vessel Fabrication Review Scaffold Tissue engineering Vascular grafts
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creator	Lang, Zhongliang Chen, Tianao Zhu, Shilu Wu, Xizhi Wu, Yongqi Miao, Xiaoping Wang, Qiang Zhao, Liping Zhu, Zhiqiang Xu, Ronald X.
description	Cardiovascular disease (CVD) ranks among the leading causes of morbidity and mortality globally, primarily due to arterial occlusive disease. Vascular bypass remains the cornerstone of treatment; however, many patients lack suitable autologous vessels (e.g., saphenous vein) for grafting. Tissue-engineered vascular grafts (TEVGs) provide a viable alternative capable of integrating, remodeling, and repairing host vessels, responding to mechanical and biochemical stimuli. Currently, preparation methods for TEVGs are mainly categorized into scaffold-free and scaffold-based approaches. Scaffold-free methods exhibit comparatively weaker mechanical properties and limited research progress, whereas scaffold-based approaches show more promising applications due to their superior mechanical properties and biocompatibility. This review examines current research progress in materials, fabrication processes, functionalized modifications, cell implantation, and animal and clinical experiments for scaffold-based preparation of TEVGs. By exploring current challenges and future perspectives in this field, we expect to provide new insights into TEVGs development and expedite their clinical applications. [Display omitted]
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Vascular bypass remains the cornerstone of treatment; however, many patients lack suitable autologous vessels (e.g., saphenous vein) for grafting. Tissue-engineered vascular grafts (TEVGs) provide a viable alternative capable of integrating, remodeling, and repairing host vessels, responding to mechanical and biochemical stimuli. Currently, preparation methods for TEVGs are mainly categorized into scaffold-free and scaffold-based approaches. Scaffold-free methods exhibit comparatively weaker mechanical properties and limited research progress, whereas scaffold-based approaches show more promising applications due to their superior mechanical properties and biocompatibility. This review examines current research progress in materials, fabrication processes, functionalized modifications, cell implantation, and animal and clinical experiments for scaffold-based preparation of TEVGs. By exploring current challenges and future perspectives in this field, we expect to provide new insights into TEVGs development and expedite their clinical applications. 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By exploring current challenges and future perspectives in this field, we expect to provide new insights into TEVGs development and expedite their clinical applications. 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subjects	Blood vessel Fabrication Review Scaffold Tissue engineering Vascular grafts
title	Construction of vascular grafts based on tissue-engineered scaffolds
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