所有人体脊柱运动节段的活动范围和中立区：在标准化测试条件下进行的30年体外实验数据收集。

Range of Motion and Neutral Zone of All Human Spinal Motion Segments: A Data Collection of 30 Years of In Vitro Experiments Performed Under Standardized Testing Conditions.

作者信息

Wilke Hans-Joachim, Kienle Annette, Werner Karin, Liebsch Christian

机构信息

Institute of Orthopaedic Research and Biomechanics, Trauma Research Centre Ulm Ulm University Medical Centre Ulm Germany.

SpineServ GmbH & Co. KG Ulm Germany.

出版信息

JOR Spine. 2025 Mar 5;8(1):e70052. doi: 10.1002/jsp2.70052. eCollection 2025 Mar.

DOI:10.1002/jsp2.70052

PMID:40046266

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11881816/

Abstract

BACKGROUND

Spinal flexibility can vary among spinal sections and single motion segments. The purpose of this work was to provide a comprehensive overview of the range of motion (RoM) and neutral zone (NZ) values of all spinal levels collected during 30 years of in vitro experiments under standardized testing conditions.

METHODS

RoM and NZ data obtained from in vitro testing of intact human mono- and polysegmental specimens with pure moments of 2.5 Nm for the cervical, 5 Nm for the thoracic, and 7.5 Nm for the lumbar spine were collated from the internal database of the authors' institution. Descriptive statistics were performed with median values and median absolute deviations. Outliers were defined as values beyond twofold standard deviation and excluded from evaluation. Normal distribution was verified using the Shapiro-Wilk test.

RESULTS

RoM and NZ data of = 1139 functional spinal units were collected with sample sizes ranging from = 6 to = 224 per segmental level. The cervical spine was very flexible in flexion/extension and moderately flexible in lateral bending, while in axial rotation, the motion segment C1-C2 was as flexible as the subaxial cervical spine combined. The thoracic spine was the least flexible section in flexion/extension but allowed moderate lateral bending and axial rotation. The rib cage had a strong effect on thoracic spinal flexibility, particularly in axial rotation and at the mid-thoracic spinal levels. The lumbar spine exhibited moderate flexibility in flexion/extension and lateral bending but showed the lowest RoM and NZ in axial rotation.

CONCLUSIONS

This unique summary of RoM and NZ data, acquired under the same loading conditions in the same spine tester, provides a detailed insight into overall spinal flexibility and will serve as a valid dataset for the validation of in vitro studies and numerical models of the single motion segments of the spine.

摘要

背景

脊柱的柔韧性在不同脊柱节段和单个运动节段之间可能存在差异。本研究的目的是全面概述在标准化测试条件下30年的体外实验中收集的所有脊柱节段的活动范围（RoM）和中立区（NZ）值。

方法

从作者所在机构的内部数据库中整理出对完整的人体单节段和多节段标本进行体外测试获得的RoM和NZ数据，颈椎施加2.5 Nm的纯力矩，胸椎施加5 Nm，腰椎施加7.5 Nm。采用中位数和中位数绝对偏差进行描述性统计。将超出两倍标准差的值定义为异常值并排除在评估之外。使用Shapiro-Wilk检验验证正态分布。

结果

收集了1139个功能性脊柱单元的RoM和NZ数据，每个节段水平的样本量从6到224不等。颈椎在屈伸时非常灵活，在侧屈时中等灵活，而在轴向旋转时，C1-C2运动节段与下颈椎联合起来一样灵活。胸椎是屈伸时最不灵活的节段，但允许中等程度的侧屈和轴向旋转。胸廓对胸椎柔韧性有很大影响，特别是在轴向旋转和胸段脊柱中部水平。腰椎在屈伸和侧屈时表现出中等柔韧性，但在轴向旋转时RoM和NZ最低。

结论

在同一脊柱测试仪中相同加载条件下获得的RoM和NZ数据的这一独特总结，提供了对脊柱整体柔韧性的详细洞察，并将作为验证脊柱单个运动节段的体外研究和数值模型的有效数据集。

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所有人体脊柱运动节段的活动范围和中立区：在标准化测试条件下进行的30年体外实验数据收集。

Range of Motion and Neutral Zone of All Human Spinal Motion Segments: A Data Collection of 30 Years of In Vitro Experiments Performed Under Standardized Testing Conditions.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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