Assessing the Feasibility of EMG Biofeedback to Reduce the Upper Trapezius Muscle Excitation during a Seated Row Exercise, a Non-randomized Comparative Study.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-23 DOI:10.1007/s10484-024-09657-y
Fabio Vieira Dos Anjos, Hélio V Cabral, Amanda de Oliveira Silva, Taian Martins Vieira, Liliam Fernandes de Oliveira
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Abstract

The upper trapezius muscle is often excessively excited during resistance training exercises, increasing the shoulder's liability to musculoskeletal disorders of individuals participating in overhead sports or throwing activities. Different approaches have been proposed for reducing the potentially harmful loading of the upper trapezius. None, however, has been devised to deal directly with the main culprit: the muscle excitation. This non-randomized comparative study explores the feasibility of biofeedback based on surface electromyograms (EMGs) in suppressing undue excitation of the upper trapezius during a seated row exercise. Eight male volunteers were instructed to perform the wide-grip seated row exercise without and with the EMG biofeedback of the upper trapezius. Surface EMGs from the three portions of the trapezius and the serratus anterior were sampled with pairs of surface electrodes. A triaxial accelerometer was positioned on the weight stack for the identification of the exercise phase and repetition. This study showed that during the "with biofeedback" condition, the participants were able to activate the upper trapezius and serratus anterior to a lower degree (~ 10%) compared to the "without biofeedback" condition. Future studies should explore if this can lead to greater gains in muscle performance and/or reduce the risk of shoulder injury.

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评估 EMG 生物反馈在坐姿划船运动中降低斜方肌上部兴奋的可行性,一项非随机比较研究。
在阻力训练过程中,斜方肌上部往往会过度兴奋,从而增加了参加高空运动或投掷活动的人患肩部肌肉骨骼疾病的几率。人们提出了不同的方法来减轻斜方肌上部潜在的有害负荷。然而,没有一种方法能直接解决罪魁祸首:肌肉兴奋。这项非随机比较研究探讨了基于表面肌电图(EMG)的生物反馈在坐姿划船练习中抑制斜方肌上部过度兴奋的可行性。八名男性志愿者在没有肌电图生物反馈的情况下和有肌电图生物反馈的情况下进行宽握坐姿划船练习。用一对表面电极对斜方肌的三个部分和前锯肌的表面肌电图进行采样。一个三轴加速度计被放置在重量堆上,用于识别练习阶段和重复次数。这项研究表明,与 "无生物反馈 "条件相比,在 "有生物反馈 "条件下,参与者能够激活斜方肌上部和前锯肌的程度较低(约 10%)。未来的研究应探讨这是否能提高肌肉性能和/或降低肩部受伤的风险。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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