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NCT07474610
Core stability is the ability to control the position and movement of the trunk for optimal production, transfer, and control of forces in the upper and lower extremities during functional activities. Studies have shown that TrA activation is delayed in individuals with low back pain. The relationship between core stability and the lower extremity has been frequently studied in the literature, and according to Kibler's 'Kinetic Chain' theory, loss of proximal stability is known to lead to dysfunction in distal segments; however, the relationship between the upper extremity and core stability is still unclear. The aim of our study is to investigate the upper extremity reach capacity and scapular stability of individuals with low back pain in relation to TrA involvement and to compare them with healthy individuals without low back pain.
NCT07387835
This study aims to evaluate the effectiveness of a 4-week rhythm-based stabilization exercise protocol for professional video gamers diagnosed with scapular dyskinesis. Participants will undergo a structured exercise program consisting of 6 specific scapular stabilization exercises. These exercises will be performed on both stable surfaces (such as a treatment table or wall) and unstable surfaces (such as Swiss balls) to challenge neuromuscular control. The primary goal is to determine how this combined approach affects scapular control, upper extremity functional performance, and joint range of motion. Data will be collected through clinical assessments before and after the 4-week intervention to measure improvements in scapular stability and overall upper limb function.
NCT06875596
The primary objective of this study is to investigate the effectiveness of a shoulder girdle exercise program in improving stability, range of motion, and motor control in female handball players.
NCT06202391
Swimming can cause shoulder pain due to scapular dyskinesis. Proper scapula movement is necessary for efficient swimming strokes and to avoid injury. Studying the effects of autogenic and reciprocal inhibition muscle energy techniques on swimmers with scapular dyskinesis can lead to effective interventions and reduce shoulder injuries
NCT05811520
Scapular dyskinesis is defined as a visible alteration in scapular movement and position during rest or while performing dynamic motions causing a breakage in kinetic chain. Kinematic studies in subjects with scapular dysfunction showed decrease posterior tilt of scapula, increased scapular upward rotation and changes in glenohumeral to scapulothoracic ratios. Scapular dyskinesis can be categorized into 3 types according to standard classification. Type I is the posterior displacement of infero-medial angle due to excessive anterior tilt in sagittal plane, type II is the displacement of entire medial angle from posterior thorax caused by excessive internal rotation and dysrhythmic movement of scapula excessive elevation of superior border during scapular elevation is distinguished as type III . Almost 90% of office workers presenting with scapular and neck complains present with scapular dyskinesis . Shoulder dysfunction occur in up to 68% of individuals presenting with scapular dyskinesis
NCT04622800
Scapular dyskinesis is defined as the loss of strength around the scapular muscle, tightness of the pectoralis minor and disruption of scapular movements. Scapular patterns of proprioceptive neuromuscular fasilition (PNF) techniques are often preferred in the rehabilitation of scapular dyskinesis. The main principals of PNF applications are defined as the autogenous inhibition, reciprocal inhibition, stress relaxation and gate control theory.The aim of this study was to investigate the effect of scapular PNF patterns on muscular strength and pectoralis minor tightness among individuals with unilateral scapular dyskinesis.
NCT04154098
Shoulder instability due to muscle weakness is a common problem in disorders of the upper extremities. During arm motion, the scapula acts as a dynamic base for the humeral head. To safely move the shoulder with an exoskeleton for the upper extremities a textile orthosis was developed that stabilizes the scapula against the thorax. The support level of the orthosis is continuously manually adjustable. To test the feasibility of our design and to improve the functionality of the textile orthosis, it needs to be investigated how the orthosis acts on people affected by shoulder instability. The investigators seek to explore how people with shoulder instability respond to the orthosis, and how they may benefit from the orthosis function. Therefore, the range of motion of arm elevation will be compared in different conditions: (i) without any support, (ii) with the support of a trained therapist, and (iii) when the device is engaged at the individual's optimal support level. Additionally, pilot tests will be performed to fix different parameters in our study protocol, such as the the optimal orthosis stiffness level and the ideal number of movement repetitions.
NCT01205542
Basic strength training for the neck/shoulder muscles can decrease intensity of neck/shoulder pain, but it is uncertain whether training should focus directly on the upper trapezius - which is most often tender - or on the lower compartments and serratus anterior. We hypothesize that strengthening exercise for the lower and middle trapezius as well as the serratus anterior will decrease intensity of neck/shoulder pain among office workers