Spinal Biomechanics Concepts of Pediatric Scoliosis and Trunk Shift Applied to Daily Tasks and Sports

Journal of musculoskeletal disorders and treatment Pub Date : 2021-12-31 DOI:10.23937/2572-3243.1510106

Brunette Jean, Bazergui André

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Abstract

The etiology of pediatric idiopathic scoliosis remains poorly understood and it is likely that there is a combination of different factors responsible for its initiation and development. Although the literature highlights the importance of mechanical factors on spinal deformations, the concepts did not receive the attention and consideration they deserve. The Cobb angle is the gold standard value to assess the extent of spinal deformations and risk of progression. However from a biomechanical perspective, it is not the Cobb angle that prevails but rather the distance from the vertebrae to the axis of an ideal straight vertical spine that is well seated and centered on the sacrum. These vertebral offsets along with asymmetrical loads are responsible for additional bending forces that may reach much higher values than the compression forces of a symmetric same load on a straight spine. Forces can be modified, amplified and redistributed by the shape of the spine alone. This article is a review of biomechanics concepts that are applied to the spine with simple concrete examples, and is addressed to clinicians and practitioners in orthopaedics, physical therapy, and sport and exercise science.

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儿童脊柱侧凸和躯干移位的脊柱生物力学概念应用于日常工作和运动

小儿特发性脊柱侧凸的病因仍然知之甚少，很可能是不同因素的组合导致了它的发生和发展。虽然文献强调了力学因素对脊柱变形的重要性，但这些概念并没有得到应有的重视和考虑。Cobb角是评估脊柱变形程度和进展风险的金标准值。然而，从生物力学的角度来看，Cobb角并不是最主要的角度，而是从椎骨到理想的直立脊柱轴线的距离，该脊柱位于骶骨中心。这些椎体偏移与不对称载荷一起负责额外的弯曲力，可能达到比在直脊柱上对称相同载荷的压缩力高得多的值。光是脊椎的形状就可以改变、放大和重新分配力。这篇文章通过简单的具体例子回顾了应用于脊柱的生物力学概念，并针对骨科、物理治疗和运动科学的临床医生和从业人员进行了介绍。

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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Journal of musculoskeletal disorders and treatment

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