PURPOSE: Humans differ from other great ape species in their propensity to develop tears of the rotator cuff. The aim of this study was to compare the anatomical risk factors for subacromial impingement and rotator cuff tears amongst the great apes and to determine which features may be accentuated in humans and therefore play a more significant role in disease aetiology. METHODS: Orthogonal digital photographs of 22 human, 17 gorilla, 13 chimpanzee and 12 orangutan dry bone scapula specimens oriented in the glenoid plane were taken. Anatomical measurements were preformed using a calibrated digital image technique and the results scaled according to scapula vertebral border length. RESULTS: Of the ten anatomical features associated with subacromial impingement and rotator cuff tears in humans, none were shown to be accentuated and significantly different to the other species studied. However the human supraspinatus fossa was shown to be significantly smaller. CONCLUSIONS: These results indicate that an alternative primary aetiological factor for rotator cuff tears must exist. A reduction in the size of the supraspinatus fossa in human scapulae suggests that structural insufficiency of the supraspinatus or a change in rotator cuff force vectors could play a role.
PURPOSE:Humans differ from other great ape species in their propensity to develop tears of the rotator cuff. The aim of this study was to compare the anatomical risk factors for subacromial impingement and rotator cuff tears amongst the great apes and to determine which features may be accentuated in humans and therefore play a more significant role in disease aetiology. METHODS: Orthogonal digital photographs of 22 human, 17 gorilla, 13 chimpanzee and 12 orangutan dry bone scapula specimens oriented in the glenoid plane were taken. Anatomical measurements were preformed using a calibrated digital image technique and the results scaled according to scapula vertebral border length. RESULTS: Of the ten anatomical features associated with subacromial impingement and rotator cuff tears in humans, none were shown to be accentuated and significantly different to the other species studied. However the human supraspinatus fossa was shown to be significantly smaller. CONCLUSIONS: These results indicate that an alternative primary aetiological factor for rotator cuff tears must exist. A reduction in the size of the supraspinatus fossa in human scapulae suggests that structural insufficiency of the supraspinatus or a change in rotator cuff force vectors could play a role.
Authors: Andrew S Wong; Linda Gallo; John E Kuhn; James E Carpenter; Richard E Hughes Journal: J Shoulder Elbow Surg Date: 2003 Jul-Aug Impact factor: 3.019
Authors: Richard W Nyffeler; Clément M L Werner; Atul Sukthankar; Marius R Schmid; Christian Gerber Journal: J Bone Joint Surg Am Date: 2006-04 Impact factor: 5.284
Authors: Cyriel Sebastiaan Olie; René van Zeijl; Salma El Abdellaoui; Arjen Kolk; Celeste Overbeek; Rob G H H Nelissen; Bram Heijs; Vered Raz Journal: J Cachexia Sarcopenia Muscle Date: 2021-12-05 Impact factor: 12.910