用于构建血管化和神经化组织工程骨的显微外科技术。

Microsurgical techniques used to construct the vascularized and neurotized tissue engineered bone.

机构信息

Department of Orthopedics Surgery, Xijing Hospital, Fourth Military Medical University, Xi'an 710032, China.

Department of Orthopaedic Surgery, Southern Hospital, Southern Medical University, Guangzhou 510515, China.

出版信息

Biomed Res Int. 2014;2014:281872. doi: 10.1155/2014/281872. Epub 2014 May 13.

DOI:10.1155/2014/281872

PMID:24900962

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4036431/

Abstract

The lack of vascularization in the tissue engineered bone results in poor survival and ossification. Tissue engineered bone can be wrapped in the soft tissue flaps which are rich in blood supply to complete the vascularization in vivo by microsurgical technique, and the surface of the bone graft can be invaded with new vascular network. The intrinsic vascularization can be induced via a blood vessel or an arteriovenous loop located centrally in the bone graft by microsurgical technique. The peripheral nerve especially peptidergic nerve has effect on the bone regeneration. The peptidergic nerve can be used to construct the neurotized tissue engineered bone by implanting the nerve fiber into the center of bone graft. Thus, constructing a highly vascularized and neurotized tissue engineered bone according with the theory of biomimetics has become a useful method for repairing the large bone defect. Many researchers have used the microsurgical techniques to enhance the vascularization and neurotization of tissue engineered bone and to get a better osteogenesis effect. This review aims to summarize the microsurgical techniques mostly used to construct the vascularized and neurotized tissue engineered bone.

摘要

组织工程骨缺乏血管化导致其存活率和成骨能力差。组织工程骨可以用富含血液供应的软组织瓣包裹，通过显微外科技术在体内完成血管化，骨移植物的表面可以被新的血管网络侵袭。通过显微外科技术，可以在骨移植物的中心位置放置一条血管或动静脉环来诱导内在血管化。外周神经，特别是肽能神经对骨再生有影响。可以通过将神经纤维植入骨移植物的中心来构建神经营养组织工程骨。因此，根据仿生学理论构建高度血管化和神经营养的组织工程骨已成为修复大骨缺损的一种有效方法。许多研究人员已经使用显微外科技术来增强组织工程骨的血管化和神经营养作用，以获得更好的成骨效果。本综述旨在总结用于构建血管化和神经营养组织工程骨的常用显微外科技术。

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