View clinical trials related to Shoulder Injuries.
Filter by:The aim of our study is to investigate the effectiveness of Pulse Electromagnetic Field Therapy (PEMT) versus placebo on pain, quality of life, shoulder function and isokinetic assessment, and muscle strength in the treatment of subacromial impingement syndrome.
The objectives of this study are to confirm the safety, performance, and clinical benefits of Zimmer Biomet Shoulder Arthroplasty Systems and its instrumentation in primary or revision shoulder arthroplasty. These objectives will be assessed using standard scoring systems, radiographic evidence, and adverse event records. Safety of the system will be assessed by monitoring the frequency an incidence of adverse events.
This study intends to study the shoulder SLAP injury through deep learning technology and establish a deep learning model through the combination of axial and oblique coronal images to establish a deep learning method that can accurately identify and grade shoulder SLAP injury.
This study is based on human anatomical data and uses computer-aided engineering (CAE) software such as biomedical image processing software, reverse engineering software, CAD software, and finite element analysis software to create a three-dimensional bracing model. With the help of 3D printing technology, we have developed personalized brace, completed the personalized rapid design and optimization of the three series of support equipment products such as the posterior cruciate ligament brace, ankle ankle brace, and shoulder brace.
Isolated and combined effectiveness of pragmatic protocols on shoulder range of motion had been investigated and found effective in healthy participants. To our knowledge, there was insufficient literature to support the comparison between pragmatic and traditional protocols in the treatment of shoulder pathologies.
The purpose of the proposed work is to screen the effectiveness of an evidence-based, targeted, treatment intervention versus a non-specific, generalized, treatment intervention to treat symptomatic shoulder instability in collegiate swimmers. The results of the study will allow direct observation of treatment effects designed to mitigate the effects of symptomatic shoulder instability. These results will facilitate the optimization of future treatments and interventions.
The purpose of this pilot study is to validate the safety, reliability and usability of FLOAT medical device, a prototypal robotic system for the rehabilitation of the shoulder, designed and developed in the Rehab Technologies IIT-INAIL Lab to fulfil the needs orthopaedic conditions. The acceptance from patients and therapists will be assessed after a single session of robotic therapy in a sample of injured workers suffering from post-traumatic or post-surgical shoulder disorders.
Participants will be measured with motion monitor system while using 6 different slings. Measurement order will be randomized, and 5 minutes resting period will be given prior measurement. Scapula, humerus and thorax positions will be recorded in resting position and then with slings.
The main objective of this study is whether preloading before positioning would be effective for less hemodynamic instability. The study also analyzes that patients with preloading will decrease postoperative nausea and vomiting, better surgical satisfaction and shortened the duration of surgery and anesthesia.
Background: To compare the pre-season clinical measures with shoulder rotator strength and range of motion between bilateral (swimmers) and unilateral (badminton players) overhead athletes. Design: Prospective cohort study Participants: 42 athletes were enrolled including 24 elite badminton players and 18 elite swimmers Independent variables: A pre-season visit consisted in clinical and isokinetic shoulder strength testing. Clinical testing consisted in the shoulder range of motion (ROM) measurements aIsokinetic internal and external rotator shoulder muscles strength was tested at 60. Conventional and functional (eccentric-to-concentric) ratios (FR) were calculated.