Moment arms from the anatomical subregions of the rotator cuff muscles during flexion

Abstract

Rotator cuff (RC) muscles act as force couples to stabilize the glenohumeral joint and enable shoulder motion. We investigated the moment arms of anatomical subregions of the supraspinatus (SSP), infraspinatus (ISP), subscapularis (SSC), and the teres minor muscles during flexion. Eight fresh-frozen cadaveric shoulders were obtained and the anatomical subregions of the RC muscles were identified. Sutures were secured for each subregion at the musculotendinous junction and excursion during flexion from 30° to 90° at 10° increments was measured using a 3-D digitizing system. Kruskal-Wallis test followed by the Bonferroni post-hoc test was used to assess differences from subregions within a single muscle. There were significant differences in moment arms between the subregions from each RC muscle (P < 0.001). The anterior-superficial and -middle subregions of the SSP muscle presented positive (flexor) and decreasing moment arms with increasing flexion. The posterior-deep subregion showed moment arms with positive but decreasing values up to 65°, and negative (extensor) moment arms at larger angles. Subregions from the ISP showed positive and almost constant moment arms throughout range of motion, while the teres minor presented negative and almost unaltered moment arms. The superior and middle subregions of the SSC showed positive, but decreasing, moment arms with increasing angles up to 75° flexion, with negative moment arms towards end-range. The inferior subregion presented negative moment arms throughout flexion. Our results indicated that the posterior deep subregion of SSP muscle seems to act as a flexor at early range and as a stabilizer at mid-to-end range of flexion.