An entropy-assisted musculoskeletal shoulder model

Abstract Optimization combined with a musculoskeletal shoulder model has been used to estimate mechanical loading of musculoskeletal elements around the shoulder. Traditionally, the objective function is to minimize the summation of the total activities of the muscles with forces, moments, and stabi...

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Bibliographic Details
Published in:Journal of electromyography and kinesiology 2017-04, Vol.33, p.103-110
Main Authors: Xu, Xu, Lin, Jia-hua, McGorry, Raymond W
Format: Article
Language:English
Subjects:
Adult
Biomechanical Phenomena
Electromyography
Entropy
Female
Humans
Male
Models, Biological
Muscle Contraction
Muscle, Skeletal - physiology
Physical Medicine and Rehabilitation
Posture
Shoulder - physiology
Shoulder Joint - physiology
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Summary:Abstract Optimization combined with a musculoskeletal shoulder model has been used to estimate mechanical loading of musculoskeletal elements around the shoulder. Traditionally, the objective function is to minimize the summation of the total activities of the muscles with forces, moments, and stability constraints. Such an objective function, however, tends to neglect the antagonist muscle co-contraction. In this study, an objective function including an entropy term is proposed to address muscle co-contractions. A musculoskeletal shoulder model is developed to apply the proposed objective function. To find the optimal weight for the entropy term, an experiment was conducted. In the experiment, participants generated various 3-D shoulder moments in six shoulder postures. The surface EMG of 8 shoulder muscles was measured and compared with the predicted muscle activities based on the proposed objective function using Bhattacharyya distance and concordance ratio under different weight of the entropy term. The results show that a small weight of the entropy term can improve the predictability of the model in terms of muscle activities. Such a result suggests that the concept of entropy could be helpful for further understanding the mechanism of muscle co-contractions as well as developing a shoulder biomechanical model with greater validity.
ISSN:1050-6411
1873-5711
DOI:10.1016/j.jelekin.2017.01.010