In the young and healthy shoulder, cranially directed forces during abduction are counteracted by co-contraction of the rotator cuff muscles. In this way, it is prevented that the humerus moves... Show moreIn the young and healthy shoulder, cranially directed forces during abduction are counteracted by co-contraction of the rotator cuff muscles. In this way, it is prevented that the humerus moves cranially towards the acromion, thus entrapping subacromial tissues. During ageing however, shoulder tissues are subject to marked degeneration, which particularly concerns the rotator cuff muscles. This may have two consequences. First, due to reduced contribution of the upper parts of the rotator cuff to the abduction movement, the deltoid has to compensate, which results in a more cranially, instead of mediocranially directed force. Second, reduced stabilising force by the rotator cuff may jeopardise counteraction of cranial deltoid forces. These changes could lead to cranialisation of the humerus with painful compression of subacromial tissues, as observed in patients with Subacromial Pain Syndrome (SAPS). Previous studies have shown that by co-contraction of arm adductors, humeral-head depression may be accomplished, for the purpose of unloading subacromial tissues. In this thesis, we investigated the role of adductor co-contraction in the ageing asymptomatic population and in patients with SAPS. This has resulted in eight scientific publications with which the fundaments for evidence-based therapy in SAPS have been built, with as cornerstone training of adductor co-contraction. Show less
Kolk, A.; Overbeek, C.L.; Witte, P.B. de; Canete, A.N.; Reijnierse, M.; Nagels, J.; ... ; Groot, J.H. de 2021
Background: Conflicting theories exist about the underlying cause of chronic subacromial pain in the middle-aged population. We aim to improve our understanding of kinematics and muscle activation... Show moreBackground: Conflicting theories exist about the underlying cause of chronic subacromial pain in the middle-aged population. We aim to improve our understanding of kinematics and muscle activation in subacromial pain syndrome to provide insight in its pathophysiology. Methods: In a cross-sectional comparison of 40 patients with subacromial pain syndrome and 30 asymptomatic controls, three-dimensional shoulder kinematics and electromyography-based co-contraction in 10 shoulder muscles were independently recorded. Glenohumeral and scapulothoracic kinematics were evaluated during abduction and forward flexion. Co-contraction was expressed as an activation ratio, specifying the relative agonistic and antagonistic muscle activity in each muscle. Findings: During abduction and forward flexion, the contribution of glenohumeral motion to elevation and glenohumeral external rotation was lower in subacromial pain syndrome (at 1200 abduction: - 9 degrees, 95% CI -14 degrees- -3 degrees; and - 8 degrees, 95% CI -13 degrees -3 degrees, respectively), and was compensated by more scapulothoracic motion. The pectoralis major's activation ratio was significantly lower (Z-score: -2.657, P = 0.008) and teres major's activation ratio significantly higher (Z-score: -4.088, P < 0.001) in patients with subacromial pain syndrome compared to the control group. Interpretation: Reduced glenohumeral elevation and external rotation in subacromial pain syndrome coincided with less teres major antagonistic activity during elevation. These biomechanical findings provide a scientific basis for intervention studies directed at stretching exercises to reduce glenohumeral stiffness in the treatment of subacromial pain syndrome, and teres major strengthening to improve humeral head depressor function. Show less
Overbeek, C.L.; Kolk, A.; Nagels, J.; Witte, P.B. de; Zwaal, P. van der; Visser, C.P.J.; ... ; Groot, J.H. de 2018