Anatomical explanation of the screw motion of the elbow joint.

IF 2.9 2区医学 Q1 ORTHOPEDICS

Journal of Shoulder and Elbow Surgery Pub Date : 2025-10-07 DOI:10.1016/j.jse.2025.08.018

Jan Herregodts, Kate Duquesne, Mauro Van Den Haute, Eva De Vries, Stijn Herregodts, Jan Detand, Emmanuel Audenaert, Alexander Van Tongel

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引用次数: 0

Abstract

Aim: This study aimed to explore the anatomical factors contributing to the screw motion of the elbow joint during a flexion/extension movement of the elbow joint.

Background: Historically, the humero-ulnar joint has been simplified to a symmetrical, mono-axial hinge joint. More recent studies suggest an asymmetrical screw motion or helical movement during the flexion movement. This subtle varus-valgus motion during flexion and extension likely has evolutionary explanations. When the arm is in a dependent position (upper arm next to the body), the valgus angle of the elbow allows the arm to relax comfortably without interference with the pelvis. However, no anatomical studies have been conducted to confirm this biomechanical hypothesis. This study aims to explore the screw motion of the elbow joint anatomically.

Methods: Non-coupled statistical shape models of the humerii and ulnae were separately created using CT scans of 210 humerii (115 right, 95 left) and 156 ulnae (75 right, 81 left). The mean shape and the 95% CI of the variation of the first five shape modes were calculated and analyzed.The deepest points of the osseous trochlear grove were indicated on the five shape modes. This was performed in 3-matic by making sections of the articular humerus in different flexion angles. The mediolateral distance of each point to the sagittal plane was measured. The same procedure was performed for the greater sigmoid notch of the ulna. The geometry of the notch was investigated by determining the mediolateral shift of the notch with respect to the point of origin.

Results: The mean shape model of the humeral osseous groove has a helical anatomy. The ulnar greater sigmoid ridge has a circular anatomy, without any helical anatomy, as there was no mediolateral shift of the notch in the different section planes with respect to the point of origin. The maximal valgus position of the elbow was reached in extension, while the maximal varus position was reached in deep flexion.

Conclusion: This is the first anatomical study clarifying the origin of the vortical movement of the elbow due to the helical path of the distal humeral groove based on a statistical shape model of the humerus. This morphological effect should be taken into account when performing osteosynthesis or in the development of total elbow implants.

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肘关节螺钉运动的解剖学解释。

目的：本研究旨在探讨肘关节屈伸运动中影响肘关节螺钉运动的解剖学因素。背景：历史上，肱骨-尺关节已被简化为对称的单轴铰链关节。最近的研究表明，在屈曲运动中存在不对称的螺旋运动或螺旋运动。在屈伸过程中这种微妙的内翻运动可能有进化上的解释。当手臂处于依赖位置（上臂靠近身体）时，肘部的外翻角可以使手臂舒适地放松，而不会干扰骨盆。然而，没有解剖研究来证实这一生物力学假说。本研究旨在从解剖学角度探讨肘关节的螺钉运动。方法：利用CT扫描210个肱骨（右115个，左95个）和156个尺骨（右75个，左81个）分别建立肱骨和尺骨非耦合统计形状模型。计算并分析了前五种形状模态的平均形状和变异的95% CI。骨性滑车沟最深的点在五种形态模式上显示。这是通过制作不同屈曲角度的肱骨关节切片在3-matic中进行的。测量各点到矢状面的中外侧距离。尺骨乙状突大切迹亦行相同手术。通过确定缺口相对于原点的中外侧移位来研究缺口的几何形状。结果：肱骨沟平均形态模型呈螺旋形解剖。尺侧大乙状骨脊呈圆形解剖结构，没有螺旋解剖结构，因为相对于原点，在不同的切面上没有切迹的中外侧移位。肘关节伸展时达到最大外翻位，深屈曲时达到最大内翻位。结论：这是第一个基于肱骨统计形状模型的解剖研究，阐明了由于肱骨远端沟的螺旋路径导致肘关节垂直运动的起源。在进行骨融合术或发展全肘植入物时，应考虑到这种形态学影响。

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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来源期刊

Journal of Shoulder and Elbow Surgery 医学-外科

CiteScore

6.50

自引率

23.30%

发文量

604

审稿时长

11.2 weeks

期刊介绍： The official publication for eight leading specialty organizations, this authoritative journal is the only publication to focus exclusively on medical, surgical, and physical techniques for treating injury/disease of the upper extremity, including the shoulder girdle, arm, and elbow. Clinically oriented and peer-reviewed, the Journal provides an international forum for the exchange of information on new techniques, instruments, and materials. Journal of Shoulder and Elbow Surgery features vivid photos, professional illustrations, and explicit diagrams that demonstrate surgical approaches and depict implant devices. Topics covered include fractures, dislocations, diseases and injuries of the rotator cuff, imaging techniques, arthritis, arthroscopy, arthroplasty, and rehabilitation.