Hsu Ar-Tyan, Chang Jia-Hao, Chang Chih-Han
Department of Physical Therapy, College of Medicine, National Cheng Kung University, Tainan, Taiwan.
J Orthop Sports Phys Ther. 2002 Dec;32(12):605-12. doi: 10.2519/jospt.2002.32.12.605.
Single-session repeated-measures design.
To define the resting position of the glenohumeral joint by investigating the magnitude of the anterior and posterior displacements of the humeral head and medial and lateral rotation ranges of motion (ROMs) of the glenohumeral joint at different abduction angles in cadaver specimens.
The resting position of a joint is the position in the joint's ROM at which the joint capsule has its greatest laxity. It is frequently chosen as the position for assessing and treating joints with dysfunction. However, no study has been conducted to determine the resting position of the glenohumeral joint.
Seven freshly frozen cadaver shoulder specimens (age at time of death [mean +/- SD] was 66.9 +/- 2.5 years) were studied. Specimens were mounted on a system that uses computer-controlled hydraulics and motors to induce and monitor translation and rotation movements of the glenohumeral joint. The magnitudes of total displacement (DTotal) of the head of the humerus and total ROM (RTotal) of the glenohumeral joint were measured in the plane of the scapula at 0 degrees (neutral), 30 degrees, 40 degrees, 50 degrees, 60 degrees, and the end range of glenohumeral joint abduction. The resting position was determined as the midpoint of the shared range of the 95% to 99.9% confidence intervals of the predicted abduction position where the peaks of displacement and rotation occurred.
The DTotal measurements (mean +/- SD) at 0 degrees, 30 degrees, 40 degrees, 50 degrees, 60 degrees, and the end range of glenohumeral joint abduction were 30.53 +/- 9.35, 44.87 +/- 7.34, 45.35 +/- 8.53, 43.99 +/- 10.02, 39.63 +/- 9.85, and 23.80 +/- 10.42 mm, respectively. The RTotal measurements (mean +/- SD) for the same positions were 67.15 degrees +/- 15.87 degrees, 95.64 degrees +/- 24.26 degrees, 98.88 degrees +/- 29.56 degrees, 97.08 degrees +/- 30.17 degrees, 90.91 degrees +/- 28.73 degrees, and 63.48 degrees +/- 25.93 degrees, respectively. The resting position was located at 39.33 degrees +/- 4.37 degrees of glenohumeral abduction (45.13% +/- 7.58% of the available abduction ROM). The resting position (Y) varied linearly with the maximum available abduction ROM (X) (Y = 0.607X - 13.120, R2 = 0.679, F = 10.61, P = 0.023). There was a main effect of joint position on both displacement (P<0.001) and rotation ROM (P<0.001).
In the plane of the scapula, the resting position of the glenohumeral joint (angle measured between the scapula and humerus) occurred at 39 degrees of abduction (45% of the maximum available abduction ROM) and varied linearly with the amount of available abduction ROM. This finding suggests that in patients with glenohumeral joint hypomobility the resting position is located closer to neutral and that evaluation and treatment should be initiated accordingly at a smaller angle of abduction than the traditional resting position. Our data were derived from cadaver specimens, therefore, caution should be taken when generalizing the results of the present study to a patient population.
单节段重复测量设计。
通过研究尸体标本在不同外展角度时肱骨头的前后位移大小以及盂肱关节的内旋和外旋活动范围(ROM),来确定盂肱关节的静息位。
关节的静息位是指关节活动范围内关节囊松弛度最大的位置。它常被选作评估和治疗功能障碍关节的位置。然而,尚未有研究确定盂肱关节的静息位。
研究了7个新鲜冷冻的尸体肩部标本(死亡时年龄[均值±标准差]为66.9±2.5岁)。标本安装在一个使用计算机控制液压和电机来诱导和监测盂肱关节平移和旋转运动的系统上。在肩胛骨平面上,于0度(中立位)、30度、40度、50度、60度以及盂肱关节外展终末范围测量肱骨头的总位移(DTotal)大小和盂肱关节的总活动范围(RTotal)。静息位被确定为预测外展位置的95%至99.9%置信区间的共同范围内位移和旋转峰值出现处的中点。
在0度、30度、40度、50度、60度以及盂肱关节外展终末范围时的DTotal测量值(均值±标准差)分别为30.53±9.35、44.87±7.34、45.35±8.53、43.99±10.02、39.63±9.85和23.80±1- 0.42mm。相同位置的RTotal测量值(均值±标准差)分别为67.15度±15.87度、95.64度±24.26度、- 98.88度±29.56度、97.08度±30.17度、90.91度±28.73度和63.48度±25.93度。静息位位于盂肱外展39.33度±4.37度处(占可用外展ROM的45.13%±7.58%)。静息位(Y)与最大可用外展ROM(X)呈线性变化(Y = 0.607X - 13.120,R2 = 0.679,F =- 10.61,P = 0.023)。关节位置对位移(P<0.001)和旋转ROM(P<0.001)均有主要影响。
在肩胛骨平面上,盂肱关节的静息位(肩胛骨与肱骨之间测量的角度)出现在外展39度处(占最大可用外展ROM的45%),并随可用外展ROM的量呈线性变化。这一发现表明,在盂肱关节活动度降低的患者中,静息位更靠近中立位,因此评估和治疗应从比传统静息位更小的外展角度开始。我们的数据来自尸体标本,所以将本研究结果推广至患者群体时应谨慎。
