Determination of Functional Rotation Axes During Elevation of the Shoulder Complex

Caroline A. M. Doorenbosch, Jaap Harlaar, Anneke Mourits, Frans C. T. van der Helm, DirkJan H. Veeger

Study Design: A cross-sectional, descriptive study of shoulder movements conducted on nonimpaired subjects. Objective: To investigate whether a single functional rotation axis about the shoulder complex can be determined during elevation in the coronal or sagittal planes, and to identify their location. Background: Accurate measurement of isokinetic torques about a joint requires alignment of the dynamometer axis with an assumed rotation axis of the joint. To assess shoulder function on a dynamometer, the location of a single rotation axis is not evident because the shoulder joint motion is based on several anatomical joints. Therefore, the rotation axis where humerothoracic movements occur should be judged as a functional rotation axis. Methods and Measures: During slow elevation movements in the sagittal and coronal plane, the position of the epicondyle and acromion were recorded with a motion analysis system. The motion trajectory of the elbow coordinates was fitted to a circle and considered an estimate of the functional shoulder joint rotation axis in the specified plane. Results: The fitted trajectory appeared to be very accurate (root-mean-square error < 2%; N = 7). In the sagittal plane, the estimated functional rotation axis was found at the humeral head; in the coronal plane, it was located about 13 centimeters medial relative to the acromion. Conclusion: The shoulder complex of nonimpaired subjects can act as a hinge joint of the upper arm relative to the thorax during elevation in each measured plane. J Orthop Sports Phys Ther. 2OO1;31(3):133-137. Key Words: biomechanics, isokinetics, movement analysis, upper extremity

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