Mechanical strategies to promote vascularization for tissue engineering and regenerative medicine.

IF 6.3 1区 医学 Q1 DERMATOLOGY
Burns & Trauma Pub Date : 2024-09-30 eCollection Date: 2024-01-01 DOI:10.1093/burnst/tkae039
Yiran Wang, Meixuan Liu, Wei Zhang, Huan Liu, Fang Jin, Shulei Mao, Chunmao Han, Xingang Wang
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引用次数: 0

Abstract

Vascularization is a major challenge in the field of tissue engineering and regenerative medicine. Mechanical factors have been demonstrated to play a fundamental role in vasculogenesis and angiogenesis and can affect the architecture of the generated vascular network. Through the regulation of mechanical factors in engineered tissues, various mechanical strategies can be used to optimize the preformed vascular network and promote its rapid integration with host vessels. Optimization of the mechanical properties of scaffolds, including controlling scaffold stiffness, increasing surface roughness and anisotropic structure, and designing interconnected, hierarchical pore structures, is beneficial for the in vitro formation of vascular networks and the ingrowth of host blood vessels. The incorporation of hollow channels into scaffolds promotes the formation of patterned vascular networks. Dynamic stretching and perfusion can facilitate the formation and maturation of preformed vascular networks in vitro. Several indirect mechanical strategies provide sustained mechanical stimulation to engineered tissues in vivo, which further promotes the vascularization of implants within the body. Additionally, stiffness gradients, anisotropic substrates and hollow channels in scaffolds, as well as external cyclic stretch, boundary constraints and dynamic flow culture, can effectively regulate the alignment of vascular networks, thereby promoting better integration of prevascularized engineered tissues with host blood vessels. This review summarizes the influence and contribution of both scaffold-based and external stimulus-based mechanical strategies for vascularization in tissue engineering and elucidates the underlying mechanisms involved.

促进组织工程和再生医学血管化的机械策略。
血管生成是组织工程和再生医学领域的一大挑战。机械因素已被证明在血管生成和血管生成中发挥着根本性作用,并能影响生成的血管网络结构。通过调节工程组织中的机械因素,可以使用各种机械策略来优化预先形成的血管网络,并促进其与宿主血管的快速整合。优化支架的机械性能,包括控制支架硬度、增加表面粗糙度和各向异性结构,以及设计相互连接的分层孔隙结构,有利于体外形成血管网络和宿主血管的生长。在支架中加入中空通道可促进图案化血管网络的形成。动态拉伸和灌注可促进体外预成型血管网络的形成和成熟。几种间接机械策略可为体内的工程组织提供持续的机械刺激,从而进一步促进体内植入物的血管化。此外,支架中的刚度梯度、各向异性基底和中空通道,以及外部循环拉伸、边界约束和动态流动培养,都能有效调节血管网络的排列,从而促进预血管化工程组织与宿主血管更好地融合。本综述总结了基于支架和外部刺激的机械策略对组织工程中血管化的影响和贡献,并阐明了相关的内在机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Burns & Trauma
Burns & Trauma 医学-皮肤病学
CiteScore
8.40
自引率
9.40%
发文量
186
审稿时长
6 weeks
期刊介绍: The first open access journal in the field of burns and trauma injury in the Asia-Pacific region, Burns & Trauma publishes the latest developments in basic, clinical and translational research in the field. With a special focus on prevention, clinical treatment and basic research, the journal welcomes submissions in various aspects of biomaterials, tissue engineering, stem cells, critical care, immunobiology, skin transplantation, and the prevention and regeneration of burns and trauma injuries. With an expert Editorial Board and a team of dedicated scientific editors, the journal enjoys a large readership and is supported by Southwest Hospital, which covers authors'' article processing charges.
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