国际腰椎研究学会奖获得者：对弹性网络的详细研究引发了对纤维环组织结构的新认识。

ISSLS Prize Winner: A Detailed Examination of the Elastic Network Leads to a New Understanding of Annulus Fibrosus Organization.

作者信息

Yu Jing, Schollum Meredith L, Wade Kelly R, Broom Neil D, Urban Jill P G

机构信息

*Department of Physiology, Anatomy and Genetics, University of Oxford, Oxford, UK; and †Department of Chemical and Materials Engineering, University of Auckland, Auckland, New Zealand.

出版信息

Spine (Phila Pa 1976). 2015 Aug 1;40(15):1149-57. doi: 10.1097/BRS.0000000000000943.

DOI:10.1097/BRS.0000000000000943

PMID:25893352

Abstract

STUDY DESIGN

Investigation of the elastic network in disc annulus and its function.

OBJECTIVE

To investigate the involvement of the elastic network in the structural interconnectivity of the annulus and to examine its possible mechanical role.

SUMMARY OF BACKGROUND DATA

The lamellae of the disc are now known to consist of bundles of collagen fibers organized into compartments. There is strong interconnectivity between adjacent compartments and between adjacent lamellae, possibly aided by a translamellar bridging network, containing blood vessels. An elastic network exists across the disc annulus and is particularly dense between the lamellae, and forms crossing bridges within the lamellae.

METHODS

Blocks of annulus taken from bovine caudal discs were studied in either their unloaded or radially stretched state then fixed and sectioned, and their structure analyzed optically using immunohistology.

RESULTS

An elastic network enclosed the collagen compartments, connecting the compartments with each other and with the elastic network of adjacent lamellae, formed an integrated network across the annulus, linking it together. Stretching experiments demonstrated the mechanical interconnectivities of the elastic fibers and the collagen compartments.

CONCLUSION

The annulus can be viewed as a modular structure organized into compartments of collagen bundles enclosed by an elastic sheath. The elastic network of these sheaths is interconnected mechanically across the entire annulus. This organization is also seen in the modular structure of tendon and muscle. The results provide a new understanding annulus structure and its interconnectivity, and contribute to fundamental structural information relevant to disc tissue engineering and mechanical modeling.

LEVEL OF EVIDENCE

N/A.

摘要

研究设计

椎间盘纤维环弹性网络及其功能的研究。

目的

研究弹性网络在纤维环结构互连中的作用，并探讨其可能的力学作用。

背景资料总结

现已知道椎间盘的板层由胶原纤维束组成，这些纤维束被组织成不同的隔室。相邻隔室之间以及相邻板层之间存在很强的互连性，可能借助于包含血管的跨板层桥接网络。整个椎间盘纤维环存在弹性网络，在板层之间尤其密集，并在板层内形成交叉桥。

方法

取自牛尾椎间盘的纤维环块在未加载或径向拉伸状态下进行研究，然后固定、切片，并使用免疫组织学进行光学结构分析。

结果

弹性网络包围着胶原隔室，将隔室彼此连接并与相邻板层的弹性网络相连，形成了一个跨越纤维环的整合网络，将其连接在一起。拉伸实验证明了弹性纤维与胶原隔室之间的力学互连性。

结论

纤维环可被视为一种模块化结构，由被弹性鞘包围的胶原束隔室组成。这些鞘的弹性网络在整个纤维环上实现力学互连。这种组织形式在肌腱和肌肉的模块化结构中也可见到。这些结果为纤维环结构及其互连性提供了新的认识，并有助于获取与椎间盘组织工程和力学建模相关的基础结构信息。

证据水平

无。

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国际腰椎研究学会奖获得者：对弹性网络的详细研究引发了对纤维环组织结构的新认识。

ISSLS Prize Winner: A Detailed Examination of the Elastic Network Leads to a New Understanding of Annulus Fibrosus Organization.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSION

LEVEL OF EVIDENCE

研究设计

目的

背景资料总结

方法

结果

结论

证据水平

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