Department of Physical Therapy and Assistive Technology, National Yang Ming Chiao Tung University, Taipei, Taiwan.
School and Graduate Institute of Physical Therapy, College of Medicine, National Taiwan University, Taipei.
J Athl Train. 2024 Jun 1;59(6):617-626. doi: 10.4085/1062-6050-0066.23.
Individuals with shoulder impingement syndrome (SIS) exhibit changes in corticospinal excitability, scapular kinematics, and scapular muscle-activation patterns. To restore the scapular kinematics and muscle-activation patterns in individuals with SIS, treatment protocols usually include scapula-focused exercises, such as scapular-orientation and strength training.
To investigate whether scapular-orientation and strength training can reverse the altered corticospinal excitability of recreational overhead athletes with SIS.
Randomized controlled clinical trial.
University laboratory.
Forty-one recreational overhead athletes with SIS: 20 in the scapular-orientation group (age = 26.45 ± 4.13 years, height = 171.85 ± 7.88 cm, mass = 66.70 ± 10.68 kg) and 21 in the strengthening group (age = 26.43 ± 5.55 years, height = 171.62 ± 5.87 cm, mass = 68.67 ± 10.18 kg).
INTERVENTION(S): Both groups performed a 30-minute training protocol consisting of 3 exercises to strengthen the lower trapezius (LT) and serratus anterior muscles without overactivating the upper trapezius muscles. Participants in the scapular-orientation group were instructed to consciously activate their scapular muscles with electromyographic biofeedback and cues, whereas the strengthening group did not receive biofeedback or cues for scapular motion.
MAIN OUTCOME MEASURE(S): Corticospinal excitability was assessed using transcranial magnetic stimulation. Scapular kinematics and muscle activation during arm elevation were also measured.
After training, both groups demonstrated an increase in motor-evoked potentials in the LT (P = .004) and increases in scapular upward rotation (P = .03), LT activation (P < .001), and serratus anterior activation (P < .001) during arm elevation. Moreover, the scapular-orientation group showed higher LT activation levels during arm elevation after training than the strengthening group (P = .03).
With or without biofeedback and cues, scapula-focused exercises improved scapular control and increased corticospinal excitability. Adding biofeedback and cues for scapular control during exercise helped facilitate greater LT activation, so feedback and cues are recommended during scapula-focused training.
患有肩峰下撞击综合征(SIS)的个体表现出皮质脊髓兴奋性、肩胛骨运动学和肩胛骨肌肉激活模式的变化。为了恢复 SIS 患者的肩胛骨运动学和肌肉激活模式,治疗方案通常包括针对肩胛骨的运动,如肩胛骨定位和力量训练。
研究针对肩胛骨的定位和力量训练是否可以逆转患有 SIS 的娱乐性上肢运动员改变的皮质脊髓兴奋性。
随机对照临床试验。
大学实验室。
41 名患有 SIS 的娱乐性上肢运动员:20 名在肩胛骨定位组(年龄=26.45±4.13 岁,身高=171.85±7.88cm,体重=66.70±10.68kg),21 名在强化组(年龄=26.43±5.55 岁,身高=171.62±5.87cm,体重=68.67±10.18kg)。
两组均进行了 30 分钟的训练方案,包括 3 项强化下斜方肌(LT)和前锯肌的运动,而不会过度激活上斜方肌。肩胛骨定位组的参与者被指示使用肌电图生物反馈和提示有意识地激活他们的肩胛骨肌肉,而强化组没有收到肩胛骨运动的生物反馈或提示。
使用经颅磁刺激评估皮质脊髓兴奋性。还测量了手臂抬高时的肩胛骨运动学和肌肉激活。
训练后,两组的 LT 运动诱发电位均增加(P=0.004),并且在手臂抬高时肩胛骨上旋(P=0.03)、LT 激活(P<0.001)和前锯肌激活(P<0.001)增加。此外,与强化组相比,肩胛骨定位组在训练后手臂抬高时的 LT 激活水平更高(P=0.03)。
无论是否使用生物反馈和提示,针对肩胛骨的运动都可以改善肩胛骨控制并增加皮质脊髓兴奋性。在运动过程中增加针对肩胛骨控制的生物反馈和提示有助于促进更大的 LT 激活,因此建议在针对肩胛骨的训练中使用反馈和提示。