Despite its importance in movement of the upper limb, the soft-tissue morphology of the shoulder joint complex (the acromioclavicular, coracoclavicular, and glenohumeral joints) across primates is poorly understood. This study compares soft-tissue morphology of these three shoulder joint components among broad phylogenetic, locomotor, and postural behavior ranges in prosimian primates. Two adult specimens of Galago moholi (a vertical clinger and leaper) were dissected for study, along with one adult each of Cheirogaleus medius (an arboreal quadruped), Eulemur macaco (an arboreal quadruped that also frequently engages in suspensory behavior), and Tarsius syrichta (a vertical clinger and leaper). Because of their role in glenohumeral joint movement and stabilization, the rotator cuff muscles were also dissected and weighed among the species. Results showed that muscle mass of individual components of the rotator cuff musculature may be adaptive to locomotor and postural behaviors of the taxa in this study. Two soft-tissue components of the glenohumeral joint, but not the acromioclavicular and coracoclavicular joints, were also considered adaptive. The quadrupedal species, C. medius and E. macaco, both had glenohumeral ligaments and E. macaco had a relatively deeper glenoid articular surface for the humerus because of the shape of the glenoid labrum. Additionally, this study noted a lack of a teres minor muscle in G. moholi, C. medius, and E. macaco despite previous studies describing them. A relatively robust teres minor muscle was found in T. syrichta. Even with the limited sample dissected here, these results suggest that soft-tissue joint morphology itself may be as adaptive to locomotory and postural styles as osseous morphology. Anat Rec,
The present study compares soft‐tissue morphology of the shoulder joint (acromioclavicular, coracoclavicular, and glenohumeral joints) among broad phylogenetic, locomotor, and postural behavior ranges in prosimian primates. Adult specimens of Galago moholi (a vertical clinger and leaper), Cheirogaleus medius (an arboreal quadruped), Eulemur macaco (an arboreal quadruped that also frequently engages in suspensory behavior), and Tarsius syrichta (a vertical clinger and leaper) were dissected. The rotator cuff muscles were also dissected and weighed among the species. Results showed that muscle mass of individual components of the rotator cuff musculature do appear to be adaptive. Two soft‐tissue components of the glenohumeral joint, but not the acromioclavicular and coracoclavicular joints, also were adaptive. The quadrupedal species, C. medius and E. macaco, both had glenohumeral ligaments and E. macaco, which also uses suspensory postures, had a relatively deeper articular surface for the humerus due to the shape of a deep, “cup‐like” glenoid labrum. Additionally, the present study noted a lack of a teres minor muscle in G. moholi, C. medius, and E. macaco despite previous studies describing them. A relatively robust teres minor muscle was found in T. syrichta. Overall, these results show that soft‐tissue joint morphology itself may be as adaptive as osseous morphology.
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