Kang Chenbin, Yang Hongji
School of Medicine, University of Electronic Science and Technology of China, Chengdu, China.
Organ Transplant Center, Sichuan Academy of Medical Sciences and Sichuan Provincial People's Hospital, University of Electronic Science and Technology of China, Chengdu, China.
Front Bioeng Biotechnol. 2024 Jun 25;12:1413518. doi: 10.3389/fbioe.2024.1413518. eCollection 2024.
Over the past few decades, there has been a remarkable advancement in the field of transplantation. But the shortage of donors is still an urgent problem that requires immediate attention. As with xenotransplantation, bioengineered organs are promising solutions to the current shortage situation. And decellularization is a unique technology in organ-bioengineering. However, at present, there is no unified decellularization method for different tissues, and there is no gold-standard for evaluating decellularization efficiency. Meanwhile, recellularization, re-endothelialization and modification are needed to form transplantable organs. With this mind, we can start with decellularization and re-endothelialization or modification of small blood vessels, which would serve to address the shortage of small-diameter vessels while simultaneously gathering the requisite data and inspiration for further recellularization of the whole organ-scale vascular network. In this review, we collect the related experiments of decellularization and post-decellularization approaches of small vessels in recent years. Subsequently, we summarize the experience in relation to the decellularization and post-decellularization combinations, and put forward obstacle we face and possible solutions.
在过去几十年里,移植领域取得了显著进展。但供体短缺仍是一个亟待关注的紧迫问题。与异种移植一样,生物工程器官是解决当前短缺状况的有前景的方案。去细胞化是器官生物工程中的一项独特技术。然而,目前针对不同组织尚无统一的去细胞化方法,评估去细胞化效率也没有金标准。同时,需要进行细胞重植、再内皮化和修饰以形成可移植器官。有鉴于此,我们可以从小血管的去细胞化以及再内皮化或修饰入手,这将有助于解决小口径血管短缺问题,同时为整个器官尺度血管网络的进一步细胞重植收集必要的数据和灵感。在本综述中,我们收集了近年来小血管去细胞化及去细胞化后处理方法的相关实验。随后,我们总结了去细胞化与去细胞化后处理组合方面的经验,并提出了我们面临的障碍及可能的解决方案。