Kinesiology Department, Faculty of Applied Health Sciences, University of Waterloo, Waterloo, ON, N2L 3G1, Canada.
Med Biol Eng Comput. 2014 Mar;52(3):257-64. doi: 10.1007/s11517-013-1081-2. Epub 2013 Jun 14.
Biomechanical models used to estimate joint loads often predict that antagonistic muscles are inactive or underestimate their contributions [3, 5]. This can result in systematic underestimation of muscle force predictions and joint contact forces. To test the feasibility of employing an empirical co-activation ratio to improve shoulder muscle force modeling estimates, it was purposed to define the co-activation relationship between humeral internal and external rotator muscles in young healthy adults. Electromyography was recorded from rotator cuff and shoulder musculature of 20 adults. Participants performed 54 submaximal voluntary force exertions of humeral internal and external rotation at various humeral abduction and rotation postures. Empirical co-activation relationships for aggregates of humeral internal and external rotators (non-weighted and PCSA-weighted versions) were well characterized by regression models (r (2) = 0.62-0.70) during internal rotation exertions, but only moderately well (r (2) = 0.35-0.42) during external rotation exertions. Humeral abduction and intensity were important predictors in both exertion types. There was no or minimal improvement in r (2) using PCSA-weighted CIs, suggesting low utility. Quantification and implementation of shoulder co-activation into biomechanical models may improve muscle force and joint load estimates, which could assist in more reliable injury risk and tissue load predictions.
用于估计关节负荷的生物力学模型通常预测拮抗肌处于静止状态或低估其贡献[3,5]。这可能导致肌肉力量预测和关节接触力的系统低估。为了测试采用经验共激活比来改善肩部肌肉力量建模估计的可行性,拟在年轻健康成年人中定义肱骨内、外旋肌之间的共激活关系。从 20 名成年人的肩袖和肩部肌肉中记录肌电图。参与者在各种肱骨外展和旋转姿势下进行了 54 次最大自主肱骨内、外旋力的发挥。在内部旋转运动期间,肱骨内、外旋肌(非加权和 PCSA 加权版本)的共激活关系通过回归模型(r(2)= 0.62-0.70)得到了很好的描述,但在外部旋转运动期间仅能得到适度的描述(r(2)= 0.35-0.42)。肱骨外展和强度是两种运动类型的重要预测因素。使用 PCSA 加权 CIs 并没有或仅稍微改善 r(2),这表明其效用较低。将肩部共激活量化并实施到生物力学模型中可能会改善肌肉力量和关节负荷的估计,这有助于更可靠地预测损伤风险和组织负荷。
