Cervical spine: sport injuries biomechanics

机译：颈椎：运动损伤的生物力学

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An improved and detailed 3-D FE model of human cervical spine was created using digitized geometric measurement. The model was validated with the in-vivo studies of Moroney [5], Panjabi [6] and Fuller [7]. Clinical instability of the spine for two cases involving flexion and compression loading (simulating injuries in motorcycle vaulting, football and diving accidents) were analyzed. The instability was based on the check list of Panjabi and White [1]. It was determined that flexion moment of 10 Nm or compressive force of 450 N would generate significant stresses and strains, sufficient posterior-anterior displacement and rotational angulation of the vertebral bodies to place the lower and mid c-spine at the onset of clinical instability or disc herniation.

机译：使用数字化几何测量结果创建了改进的详细的人颈椎3-D FE模型。该模型已通过Moroney [5]，Panjabi [6]和Fuller [7]的体内研究得到验证。分析了两例涉及屈曲和加压负荷（模拟摩托车跳高，足球和跳水事故中的受伤）的脊柱临床不稳定性。不稳定是基于Panjabi和White的清单[1]。已确定10 Nm的屈曲力矩或450 N的压缩力会产生明显的应力和应变，椎体的前后位移和旋转角度，从而在临床不稳定或发病初期将c脊椎下部和中部置于椎间盘突出症。

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《》|2005年|p.235-236|共2页
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Tchako; A.; Sadegh; A.M.;
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中图分类无线电电子学、电信技术 ;
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biomechanics; bone; orthopaedics; finite element analysis; physiological models; sport; cervical spine; sport injuries; biomechanics; 3-D FE model; digitized geometric measurement; flexion loading; compression loading; motorcycle vaulting; football accident; diving accident; posterior-anterior displacement; disc herniation;

机译：生物力学;骨骼;骨科;有限元分析;生理模型;运动;子宫颈脊柱;运动损伤;生物力学; 3-D FE模型;数字化几何测量;弯曲载荷;压缩载荷;摩托车跳马;足球事故;潜水事故;后路前移位;椎间盘突出;

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1. Biomechanics of the cervical spine Part 2. Cervical spine soft tissue responses and biomechanical modeling. [J] . Yoganandan N, Kumaresan S, Pintar FA Clinical biomechanics . 2001 ,第1期

机译：颈椎的生物力学第2部分。颈椎软组织反应和生物力学建模。
2. Biomechanical evaluation of a low profile, anchored cervical interbody spacer device in the setting of progressive flexion-distraction injury of the cervical spine [J] . WojewnikB., GhanayemA.J., TsitsopoulosP.P., 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 . 2013 ,第1期

机译：薄型，锚固式颈椎椎间间隔器在颈椎进行性屈伸牵张性损伤中的生物力学评估
3. Biomechanical evaluation of a low profile, anchored cervical interbody spacer device in the setting of progressive flexion-distraction injury of the cervical spine [J] . European spine journal . 2013 ,第1期

机译：薄型，锚固式颈椎椎间间隔器在颈椎进行性屈伸牵张性损伤中的生物力学评估
4. Cervical spine: sport injuries biomechanics [C] . Tchako A., Sadegh A.M. IEEE Annual Northeast Bioengineering Conference . 2005

机译：颈椎：体育伤害生物力学
5. Sport injury biomechanics and stress changes in adjacent intervertebral discs after partial discectomies and fusion of the cervical spine. [D] . Tchako, Abraham. 2005

机译：局部椎间盘切除术和颈椎融合后，相邻椎间盘的运动损伤生物力学和应力变化。
6. External Multicenter Study of Reliability and Reproducibility for Lower Cervical Spine Injuries Classification Systems—Part 2: An Analysis of the Subaxial Cervical Spine Injury Classification and Cervical Spine Injury Severity Score Scale [O] . Andrey Grin, Vladimir Krylov, Ivan Lvov, 2021

机译：低颈椎损伤的可靠性和再现性的外部多中心研究分类系统 - 第2部分：亚颈椎损伤分类分析和颈椎损伤严重程度分数
7. An integrated multiscale analysis of injury mechanisms in sport impacts: an application to cervical spine biomechanics in rugby union scrummaging [O] . Preatoni Ezio, Cazzola Dario, Holsgrove Timothy, 2015

机译：运动冲击损伤机制的综合多尺度分析：在橄榄球联合打乱中应用于颈椎生物力学

Cervical spine: sport injuries biomechanics

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