转子下截骨术/旋转截骨术后髋外展肌的力和力臂变化

Change of force and lever arm of the hip abductors after subtrochanteric de-/rotational osteotomy.

作者信息

Zindel Christoph, Zingg Patrick O, Meisterhans Michel, Haupt Samuel, Hoch Armando, Flury Andreas

机构信息

Department of Orthopedics, Balgrist University Hospital University of Zurich Zurich Switzerland.

出版信息

J Exp Orthop. 2025 Jun 5;12(2):e70274. doi: 10.1002/jeo2.70274. eCollection 2025 Apr.

DOI:10.1002/jeo2.70274

PMID:40476013

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12138280/

Abstract

PURPOSE

Previous studies have shown that rotational osteotomy of the femur reliably corrects anatomical torsion but may result in a ±1 cm antero-posterior shift of the greater trochanter (GT) per 10° of torsional correction. It is unclear whether an inadvertent displacement of the GT following surgical treatment of femoral maltorsion affects the hip abductors in a clinically relevant manner and needs to be addressed by compensatory digastric trochanteric osteotomy. The aim of this study was to investigate the influence of rotational subtrochanteric osteotomy on hip abductor force generation using three-dimensional (3D) surface models.

METHODS

A 3D statistical shape model (SSM) of a hip/femur was used. From a baseline value of 12°, the SSM was derotated/rotated in 10° increments, creating five different scenarios of anatomical femoral torsion: 32°, 22°, 12° (baseline), 2°, -8° (corresponding to 8° of retro torsion). The origins and insertions of the gluteus medius (GMed) and minimus (GMin) muscles were created. The hip abductor moment was defined as the muscle force (of the hip abductor muscles) multiplied by the force ratio in the direction of abduction (FRDA) multiplied by the lever arm. All values were measured, whereas muscle strength was defined as the length of the muscle fibres in relation to their optimal length.

RESULTS

Results indicated minimal changes in muscle length (±1.2%) and FRDA (1.7% to -7%) for GMed und GMin across all scenarios. However, lever arm demonstrated variations (21% to -10%), with an increase observed for derotational osteotomies and a decrease for rotational osteotomies.

CONCLUSION

Subtrochanteric osteotomy in the management of femoral maltorsion affects the hip abduction moment solely through the altered lever arm. A 20° derotation for increased femoral torsion (FT) corresponds to a 20% increase in abduction force of the GMed (improved lever arm), whereas a 20° rotation for decreased FT reduces the abduction force by 10%.

LEVEL OF EVIDENCE

Level III, diagnostic.

摘要

目的

以往研究表明，股骨旋转截骨术能可靠地矫正解剖学扭转，但每矫正10°扭转，大转子（GT）可能会出现±1 cm的前后移位。目前尚不清楚股骨扭转畸形手术治疗后GT的意外移位是否会以临床相关的方式影响髋外展肌，以及是否需要通过双腹转子截骨术进行补偿。本研究的目的是使用三维（3D）表面模型研究转子下旋转截骨术对髋外展肌力产生的影响。

方法

使用髋部/股骨的3D统计形状模型（SSM）。从12°的基线值开始，以10°的增量对SSM进行去旋转/旋转，创建五种不同的解剖学股骨扭转情况：32°、22°、12°（基线）、2°、-8°（对应8°的反向扭转）。确定臀中肌（GMed）和臀小肌（GMin）的起点和止点。髋外展力矩定义为（髋外展肌的）肌力乘以外展方向的力比（FRDA）再乘以力臂。测量所有数值，而肌肉强度定义为肌肉纤维长度与其最佳长度的关系。

结果

结果表明，在所有情况下，GMed和GMin的肌肉长度变化最小（±1.2%），FRDA变化范围为1.7%至-7%。然而，力臂表现出变化（21%至-10%），去旋转截骨术时力臂增加，旋转截骨术时力臂减小。

结论

转子下截骨术治疗股骨扭转畸形仅通过改变力臂来影响髋外展力矩。股骨扭转增加（FT）20°的去旋转对应GMed外展力增加20%（力臂改善），而FT减少20°的旋转会使外展力降低10%。

证据水平

III级，诊断性。

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转子下截骨术/旋转截骨术后髋外展肌的力和力臂变化

Change of force and lever arm of the hip abductors after subtrochanteric de-/rotational osteotomy.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

LEVEL OF EVIDENCE

目的

方法

结果

结论

证据水平

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