Proximal femoral fixation method and axial load affect simulated muscle forces in an ex vivo feline limb press.

IF 1.3 2区农林科学 Q2 VETERINARY SCIENCES

Veterinary Surgery Pub Date : 2025-04-07 DOI:10.1111/vsu.14252

Parisa Mazdarani, Michelle B M Nielsen, James E Miles

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引用次数: 0

Abstract

Objective: To quantify how increasing axial loads combined with different femoral fixation methods impact simulated quadriceps and gastrocnemius muscle forces.

Study design: Experimental, non-randomized, ex vivo study.

Methods: A custom limb press permitting axial loads of 10%-40% bodyweight with three femoral fixation models was tested with 24 limbs from 12 cats (4 per method). Fixation models were: one-complete hip mobility, two-rigid femoral fixation, three-flexion-extension hip mobility. Femoral angulation to horizontal of 60° ±5° and stifle/hock angulations of 120° ±5° were maintained using turnbuckles. Primary outcomes were bodyweight normalized quadriceps and gastrocnemius forces, and their ratio. Secondary outcomes were radiographic limb angulation and relative foot position for models 2 and 3.

Results: Normalized quadriceps forces increased more with axial load in models 1 and 3 than model 2 (p = .04), whereas normalized gastrocnemius force increased more with model 2 than models 1 and 3 (p = .009). Force ratios were unaffected by axial load (p = .4), but model 2 ratios were lower than models 1 and 3 (p = .007). Femoral angulation did not differ with load (p = .1) or model (p = .9), but both stifle and hock flexed with increasing load (p < .001) but remained largely within target. Relative foot position was mean 3.9 mm more caudal in model 2 than model 3.

Conclusion: Simulated muscle forces were proportionate to axial load, while rigid femoral fixation negatively affected both forces and ratios.

Clinical significance: Retaining hip flexion-extension yields normalized quadriceps forces closer to in vivo values and could improve current ex vivo models.

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股骨近端固定方法和轴向载荷影响离体猫肢体按压中的模拟肌肉力。

目的：量化增加轴向载荷结合不同的股骨固定方法对模拟股四头肌和腓肠肌力量的影响。研究设计：实验性、非随机、离体研究。方法：对12只猫的24条肢体（每种方法4条）进行了一种定制的肢体压力机（轴向载荷为体重的10%-40%）和3种股骨固定模型的测试。固定模式为：单髋完全固定、双刚性股骨固定、三屈伸髋关节固定。股骨角度为水平60°±5°，膝关节/飞节角度为120°±5°。主要结局是体重标准化股四头肌和腓肠肌力量及其比值。次要结果是模型2和模型3的放射学下肢角度和相对足部位置。结果：模型1和模型3的归一化股四头肌力比模型2增加（p = 0.04），而模型2的归一化腓肠肌力比模型1和模型3增加（p = 0.009）。力比不受轴向载荷影响（p = .4），但模型2比模型1和模型3低（p = .007）。股骨成角与负荷（p = 0.1）或模型（p = 0.9）没有差异，但随着负荷的增加，膝关节和飞节均屈曲(p)。结论：模拟肌肉力与轴向负荷成正比，而股骨刚性固定对力和比例都有负面影响。临床意义：保留髋关节屈伸使归一化的股四头肌力更接近体内值，并可以改善目前的离体模型。

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

Veterinary Surgery 农林科学-兽医学

CiteScore

3.40

自引率

22.20%

发文量

162

审稿时长

8-16 weeks

期刊介绍： Veterinary Surgery, the official publication of the American College of Veterinary Surgeons and European College of Veterinary Surgeons, is a source of up-to-date coverage of surgical and anesthetic management of animals, addressing significant problems in veterinary surgery with relevant case histories and observations. It contains original, peer-reviewed articles that cover developments in veterinary surgery, and presents the most current review of the field, with timely articles on surgical techniques, diagnostic aims, care of infections, and advances in knowledge of metabolism as it affects the surgical patient. The journal places new developments in perspective, encompassing new concepts and peer commentary to help better understand and evaluate the surgical patient.