A more realistic disc herniation model incorporating compression, flexion and facet-constrained shear: a mechanical and microstructural analysis. Part I: Low rate loading

Wade Kelly R.; Schollum Meredith L.; Robertson Peter A.; Thambyah Ashvin; Broom Neil D.

首页> 外文期刊>European spine journal: official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society >A more realistic disc herniation model incorporating compression, flexion and facet-constrained shear: a mechanical and microstructural analysis. Part I: Low rate loading

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A more realistic disc herniation model incorporating compression, flexion and facet-constrained shear: a mechanical and microstructural analysis. Part I: Low rate loading

机译：一种更现实的椎间盘突出模型，包括压缩，屈曲和刻面剪切：机械和微结构分析。第I部分：低速率负载

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Purpose To date, the mechanisms of disc failure have been explored at a microstructural level in relatively simple postures. However, in vivo the disc is known to be subjected to complex loading in compression, bending and shear, and the influence of these factors on the mechanisms of disc failure is yet to be described at a microstructural level. The purpose of this study was to provide a microstructural analysis of the mechanisms of failure in healthy discs subjected to compression while held in a complex posture incorporating physiological amounts of flexion and facet-constrained shear.

机译：目的目的，在相对简单的姿势中，在微观结构水平下已经探讨了盘故障的机制。然而，在体内，已知盘被压缩，弯曲和剪切进行复杂的负载，并且这些因素对盘故障机构的影响尚不在微观结构水平描述。本研究的目的是提供对经受压缩的健康盘的失效机制的微观结构分析，同时保持含有生理量的屈曲和刻面剪切的复杂姿势。

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《European spine journal: official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society》 |2017年第10期|共13页
作者
Wade Kelly R.; Schollum Meredith L.; Robertson Peter A.; Thambyah Ashvin; Broom Neil D.;
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作者单位

Univ Auckland Dept Chem &

Mat Engn Tissue Mech Lab Auckland New Zealand;

Univ Auckland Dept Chem &

Mat Engn Tissue Mech Lab Auckland New Zealand;

Auckland Hosp Dept Orthopaed Surg Auckland New Zealand;

Univ Auckland Dept Chem &

Mat Engn Tissue Mech Lab Auckland New Zealand;

Univ Auckland Dept Chem &

Mat Engn Tissue Mech Lab Auckland New Zealand;

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原文格式 PDF
正文语种 eng
中图分类骨科学（运动系疾病、矫形外科学）;
关键词
Ovine lumbar motion segments; Compression; Complex posture; Microstructural analysis; Annular disruption; Mechanism of herniation; Intervertebral disc; Herniation; Radial fissure; Mechanics;

机译：绵羊腰部运动段;压缩;复杂姿势;微观结构分析;环形破坏;疝气机制;椎间盘;疝气;径向裂缝;力学;

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1. A more realistic disc herniation model incorporating compression, flexion and facet-constrained shear: a mechanical and microstructural analysis. Part I: Low rate loading [J] . Wade Kelly R., Schollum Meredith L., Robertson Peter A., European spine journal: official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society . 2017,第10期

机译：一种更现实的椎间盘突出模型，包括压缩，屈曲和刻面剪切：机械和微结构分析。第I部分：低速率负载
2. "Surprise" Loading in Flexion Increases the Risk of Disc Herniation Due to Annulus-Endplate Junction Failure A Mechanical and Microstructural Investigation [J] . Wade Kelly R., Robertson Peter A., Thambyah Ashvin, Spine . 2015,第12期

机译：弯曲中的“意外”载荷增加了由于环－端板连接失效而导致椎间盘突出的风险机械和微观结构研究
3. How healthy discs herniate: A biomechanical and microstructural study investigating the combined effects of compression rate and flexion [J] . WadeK.R., RobertsonP.A., ThambyahA., Spine . 2014,第13期

机译：健康椎间盘突出症的发生方式：一项生物力学和微结构研究，研究压缩率和屈曲的综合影响
4. Mechanical and Microstructural Aspects of Material Failure due to Localized Shear under High-Rate Loading Conditions [C] . Mikhail Sokovikov, Mikhail Simonov, Dmitry Bilalov, International Conference on Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures . 2018

机译：在高速负载条件下局部剪切引起的材料失效的机械和微观结构方面
5. Mechanical properties of porcine muscle in compression and tension with microstructural analysis. [D] . Pietsch, Renee Brook. 2012

机译：猪肌肉在压缩和拉伸中的力学性能，通过微观结构分析。
6. Load‐transfer in the human vertebral body following lumbar total disc arthroplasty: Effects of implant size and stiffness in axial compression and forward flexion [O] . Noah B. Bonnheim, Tony M. Keaveny 2020

机译：腰椎全椎间盘置换术后人体椎体的负荷转移：植入物尺寸和刚度对轴向压缩和前屈的影响
7. Study on Mechanical Properties and Cracking Mode of Coal Samples under Compression–Shear Coupled Load Considering the Effect of Loading Rate [O] . Yanlong Chen, Huidong Cui, Hai Pu, 2020

机译：考虑加载速率效果的压缩剪切耦合负荷下煤样的力学性能和裂解模式研究

A more realistic disc herniation model incorporating compression, flexion and facet-constrained shear: a mechanical and microstructural analysis. Part I: Low rate loading

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