Ernstbrunner Lukas, Francis-Pester Fraser W, Fox Aaron, Wieser Karl, Ackland David C
Department of Orthopaedic Surgery, Royal Melbourne Hospital, Parkville, Victoria 3050, Australia; Department of Biomedical Engineering, University of Melbourne, Parkville, Victoria 3010, Australia.
Australian National University Medical School, Acton, Canberra, Australia.
Clin Biomech (Bristol). 2022 Dec;100:105775. doi: 10.1016/j.clinbiomech.2022.105775. Epub 2022 Oct 1.
Altered shoulder kinematics in patients with recurrent anterior shoulder instability remains poorly understood. This prospective study aimed to quantify in vivo glenohumeral and scapulothoracic joint kinematics and joint-contact positions in patients with shoulder instability and healthy controls.
Twenty patients with recurrent anterior shoulder instability (mean 28 years) and five patients without shoulder pathology (mean 39 years) were scanned using open CT in six static upper limb positions including 90° of abduction, combined abduction and external rotation, 90° of flexion, lift-off position (i.e. reaching behind the back) and the neutral shoulder with external rotation. Image datasets were digitally reconstructed to quantify shoulder joint kinematics and glenohumeral translation.
At 90° of abduction, instability patients demonstrated significantly less glenohumeral abduction and a reciprocal increase in upward scapulothoracic rotation compared to controls (mean difference: 13.3°, p = 0.038). With the shoulder in combined abduction and external rotation, instability patients showed a significant increase in glenohumeral rotation and a reciprocal decrease in scapulothoracic rotation compared to controls (mean difference: 5.0°, p = 0.042). There were no significant differences in humeral head translation in the sagittal plane (anterior-posterior axis) for all motions tested (p > 0.05).
Scapulothoracic and glenohumeral kinematics are significantly different between patients with recurrent anterior shoulder instability and those with a healthy shoulder. Instability patients compensate for reduced glenohumeral function during abduction by increasing scapular rotation. With the shoulder in combined abduction and external rotation position, greater glenohumeral joint angles without significantly increased humeral head translation suggest altered neuromuscular control in the unstable shoulder.
复发性肩关节前脱位患者的肩部运动学改变仍未得到充分理解。本前瞻性研究旨在量化肩关节不稳定患者和健康对照者的体内盂肱关节和肩胛胸壁关节运动学以及关节接触位置。
对20例复发性肩关节前脱位患者(平均28岁)和5例无肩部病变患者(平均39岁)在六个静态上肢位置进行开放式CT扫描,包括外展90°、外展加外旋、屈曲90°、背手位(即伸手到背后)以及外旋中立位。对图像数据集进行数字重建以量化肩关节运动学和盂肱关节平移。
在外展90°时,与对照组相比,不稳定患者的盂肱关节外展明显减少,肩胛胸壁关节向上旋转相应增加(平均差异:13.3°,p = 0.038)。当肩部处于外展加外旋位时,与对照组相比,不稳定患者的盂肱关节旋转明显增加,肩胛胸壁关节旋转相应减少(平均差异:5.0°,p = 0.042)。在所有测试运动中,肱骨头在矢状面(前后轴)的平移无显著差异(p > 0.05)。
复发性肩关节前脱位患者与健康肩部患者的肩胛胸壁关节和盂肱关节运动学存在显著差异。不稳定患者通过增加肩胛骨旋转来代偿外展时盂肱关节功能的降低。当肩部处于外展加外旋位时,盂肱关节角度增大而肱骨头平移未显著增加,提示不稳定肩部的神经肌肉控制发生改变。