Review
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World J Stem Cells. Aug 26, 2010; 2(4): 93-96
Published online Aug 26, 2010. doi: 10.4252/wjsc.v2.i4.93
A novel strategy for engineering vascularized grafts in vitro
Jin-Chun Liu
Jin-Chun Liu, Department of Research Center, Plastic Surgery Hospital, Chinese Academy of Medical Sciences and Peking Union Medical College, No.33 BaDaChu Roud, ShiJingShan District, Beijing 100144, China
Author contributions: Liu JC contribution solely to the conception and design of study and drafted the article.
Correspondence to: Dr. Jin-Chun Liu, Department of Research Center, Plastic Surgery Hospital, Chinese Academy of Medical Sciences and Peking Union Medical College, No.33 BaDaChu Roud, ShiJingShan District, Beijing 100144, China. b2008183@126.com
Telephone: +86-10-88771507 Fax: +86-10-88964137
Received: March 10, 2010
Revised: August 3, 2010
Accepted: August 10, 2010
Published online: August 26, 2010
Abstract

Tissue engineering is an interdisciplinary field promising new therapeutic means for replacing lost or severely damaged tissues or organs. However, the fabrication of complex engineered tissues has been hampered due to the lack of vascularization to provide sufficient blood supply after implantation. In this article, we propose using rapid prototyping technology to prefabricate a scaffold with an inside hollowed vascular system including an arterial end, a venous end and capillary networks between them. The scaffold will be ''printed'' layer by layer. When printing every layer, a ''low-melting point'' material will be used to form a blood vessel network and a tissue-specific material will be used outside it. Hereafter the ‘low-melting point’ material will be evacuated by vaporization to ensure a hollowed vessel network. Then the inside hollowed capillary network can be endothelialized by using autologous endothelial cells in a cycling bioreactor while the outside material can be embedded with tissue-special cells. In the end, the new vascularized autologous grafts could be transferred to the defect site by using microsurgical techniques to connect the grafts with the host artery and vein. The strategy would facilitate construction of complex tissue engineering if the hypothesis proved to be practical.

Keywords: Tissue engineering; Vascularization; Stem cell; Biomaterial; Capillary network