View clinical trials related to Shoulder Impingement.
Filter by:This research project aims to test if systematic (extensive) use of patient-reported outcomes across treatment boundaries can 1. improve patients' and health professionals' understanding of individual patients' conditions and health changes, 2. improve indications for treatment, 3. strengthen patient empowerment, and 4. reduce patients' utilization of health services. The study will be performed in the particular context of patients with chronic degenerative conditions of the shoulder. These patients are characterized by contact with numerous health professionals from different health sectors, such as general practitioner, physiotherapists and surgical referral centres, which challenges coherence and communication for the individual treatment decisions. The research project will be performed as a randomized controlled trial (RCT) with a 1-year inclusion period and two years of follow-up.
Shoulder impingement syndrome (SIS) is a complex, multi-factorial problem that is treated with a variety of different conservative options. The conservative option that has shown effectiveness is manual therapy of the cervical and thoracic spine
This study will be conducted To evaluate the effect of Visceral Manipulation versus Integrated Neuromuscular Inhibition Technique on the upper fiber of trapezius on pain intensity, pain threshold, shoulder range of motion, and function in shoulder impingement syndrome
The aim of this study is to compare the effects of exercise and Hypervolt Device on pain, muscle strength and normal joint movement in the treatment of shoulder impingement syndrome.
The aim of this study will be to investigate the role of cervical proprioceptive training on shoulder proprioception, pain, and disability in shoulder impingement syndrome patients
The primary objective of the present study is to evaluate if a single acute BFR low load- exercise bout would reduce pain in patients with nonspecific shoulder pain and whether the potential hypoalgesia will be maintained after a 45-minute physical therapy shoulder exercise session. BFR exercise will be compared to a sham BFR exercise protocol. We hypothesize that the participants in the BFR group in will experience reduced pain and will be able to complete a scapula and rotator cuff muscles exercise loading program with reduced pain until the end of the exercise program.
This randomized clinical trial aims to compare the efficacy of corticosteroid injection and tendon dry needling for the treatment of subacromial impingement syndrome.
When an individual encounters nociceptive pain stimuli, the pupil dilates in a unique manner known as Pupil reflex dilation (PRD).The degree of pupillary reflex dilatation can be further quantified into an objective parameter, termed the Pupillary pain index (PPI), as a monitoring tool for the balance between nociception and antinociception in surgical patients The motivation for this study is to investigate the feasibility of using pupillometry to assess acute pain after shoulder surgery. The purpose of the study is as follows: (1) Can PDR in patients undergoing general anesthesia be used to assess the analgesic effect of interscalene block? (2) Does PPI at the end of surgical anesthesia in such patients correlate with the first numerical pain scale (NRS) during the recovery room?
this study will be conducted to investigate instrumented Assisted Soft Tissue Mobilization On Pain, Function And Proprioception In Patients With Shoulder Impingement Syndrome
HYPOTHESES: 1. There will be no significant difference between scapular muscle strengthening and PNF exercise on improving muscle strength of upper trapezius in patients with shoulder impingement syndrome. 2. There will be no significant difference between scapular muscle strengthening and PNF exercise on improving muscle strength of middle trapezius in patients with shoulder impingement syndrome. 3. There will be no significant difference between scapular muscle strengthening and PNF exercise on improving muscle strength of lower trapezius in patients with shoulder impingement syndrome. 4. There will be no significant difference between scapular muscle strengthening and PNF exercise on improving muscle strength of serratus anterior in patients with shoulder impingement syndrome. 5. There will be no significant difference between scapular muscle strengthening and PNF exercise on muscle ratio of upper trapezius/lower trapezius muscles in patients with shoulder impingement syndrome. 6. There will be no significant difference between scapular muscle strengthening and PNF exercise on muscle ratio of upper trapezius/middle trapezius muscles in patients with shoulder impingement syndrome. 7. There will be no significant difference between scapular muscle strengthening and PNF exercise on muscle ratio of upper trapezius/serratus anterior muscles in patients with shoulder impingement syndrome. 8. There will be no significant difference between scapular muscle strengthening and PNF exercise on scapular symmetry at 0⁰ abduction in patients with shoulder impingement syndrome. 9. There will be no significant difference between scapular muscle strengthening and motor control exercise on scapular symmetry at 45⁰ abduction in patients with shoulder impingement syndrome. 10. There will be no significant difference between Scapular muscle strengthening and motor control exercise on scapular symmetry at 90⁰ abduction in patients with shoulder impingement syndrome. 11. There will be no significant difference between scapular muscle strengthening and PNF exercise on improving pain in patients with shoulder impingement syndrome. 12. There will be no significant difference between scapular muscle strengthening and PNF exercise on improving function in patients with shoulder impingement syndrome.