Lori A. Michener scite author profile

The validation of two noninvasive methods for measuring the dynamic three-dimensional kinematics of the human scapula with a magnetic tracking device is presented. One method consists of simply fixing a sensor directly to the acromion and the other consists of mounting a sensor to an adjustable plastic jig that fits over the scapular spine and acromion. The concurrent validity of both methods was assessed separately by comparison with data collected simultaneously from an invasive approach in which pins were drilled directly into the scapula. The differences between bone and skin based measurements represents an estimation of skin motion artifact. The average motion pattern of each surface method was similar to that measured by the invasive technique, especially below 120 degrees of elevation. These results indicate that with careful consideration, both methods may offer reasonably accurate representations of scapular motion that may be used to study shoulder pathologies and help develop computational models.

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Comparison of 3-Dimensional Scapular Position and Orientation Between Subjects With and Without Shoulder Impingement

Lukasiewicz¹,

McClure²,

Michener³

et al. 1999

J Orthop Sports Phys Ther

567

458

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Measurements were taken with the arm at the side, elevated in the scapular plane to horizontal, and at maximum elevation. Oneway analysis of variance was used to compare nonimpaired subjects to the . . impingement group and the symptomatic and asymptomatic sides within the impingement group. Five scapular kinematic variables were assessed at each arm position. Orientation was described by posterior tilting angle, upward rotation angle, and internal rotation angle. Position was described by medial-lateral position and superior-inferior position and determined by the distance from the scapula centroid to the k e n t h cervical vertebra (~7). Results: During scapular plane elevation of the arm, the scapula showed a general pattern of increasing posterior-tilt angle, increasing upward-rotation angle, and decreasing internal-rotation angle in both impingement and nonimpaired groups. Also, the scapula moved to a more superior position and a slightly more medial position with increasing arm elevation. Compared to nonimpaired subjects (34.6" 2 9.7), those with impingement demonstrated a significantly lower posterior tilting angle of the scapula in the sagittal plane (25.1" t 9.1). Subjects with impingement also demonstrated higher superior-inferior scapular position with maximal arm elevation (5.2 cm 2 1.6 below the first thoracic vertebrae) compared to nonimpaired subjects (7.5 cm 2 1.5). Conclusions: These results suggest that altered scapular kinematics may be an important aspect of the impingement syndrome. I Orthop Spom Phys Ther 1999;29:574-586.

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Clinical implications of scapular dyskinesis in shoulder injury: the 2013 consensus statement from the ‘scapular summit’

Kibler¹,

et al. 2013

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The second international consensus conference on the scapula was held in Lexington Kentucky. The purpose of the conference was to update, present and discuss the accumulated knowledge regarding scapular involvement in various shoulder injuries and highlight the clinical implications for the evaluation and treatment of shoulder injuries. The areas covered included the scapula and shoulder injury, the scapula and sports participation, clinical evaluation and interventions and known outcomes. Major conclusions were (1) scapular dyskinesis is present in a high percentage of most shoulder injuries; (2) the exact role of the dyskinesis in creating or exacerbating shoulder dysfunction is not clearly defined; (3) shoulder impingement symptoms are particularly affected by scapular dyskinesis; (4) scapular dyskinesis is most aptly viewed as a potential impairment to shoulder function; (5) treatment strategies for shoulder injury can be more effectively implemented by evaluation of the dyskinesis; (6) a reliable observational clinical evaluation method for dyskinesis is available and (7) rehabilitation programmes to restore scapular position and motion can be effective within a more comprehensive shoulder rehabilitation programme.

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Anatomical and biomechanical mechanisms of subacromial impingement syndrome

Michener¹,

McClure²,

Karduna³

2003

Clinical Biomechanics

587

453

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Lori A. Michener

American Shoulder and Elbow Surgeons Standardized Shoulder Assessment Form, patient self-report section: Reliability, validity, and responsiveness

Dynamic Measurements of Three-Dimensional Scapular Kinematics: A Validation Study

Comparison of 3-Dimensional Scapular Position and Orientation Between Subjects With and Without Shoulder Impingement

Clinical implications of scapular dyskinesis in shoulder injury: the 2013 consensus statement from the ‘scapular summit’

Anatomical and biomechanical mechanisms of subacromial impingement syndrome

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