View clinical trials related to Musculoskeletal Abnormalities.
Filter by:Virtual Surgical Planning (VSP), Computer-Aided Surgical Simulation (CASS) for bone corrections, and the customization of implants and devices through 3D printing, known as Patient-Specific Instruments (PSI) and Graft-Specific Instruments (GSI), are assuming increasingly central roles in orthopedic clinical and surgical practice. One area witnessing notable advancement is the treatment of musculoskeletal disorders (MMS) in children, adolescents, and young adults. These disorders involve severe and rare abnormalities in skeletal formation and development across three-dimensional planes, often affecting multiple limbs. Managing such deformities is complex, challenging to standardize, and prone to unpredictable clinical, radiographic, and functional outcomes. The application of 3D modeling and printing technologies offers a deeper understanding of deformities and facilitates improved prediction, precision, reproducibility, and safety in surgical interventions. The Musculoskeletal Apparatus Network (RAMS Network) centers are equipped with advanced 3D laboratories for surgical simulation and planning, aligned with the overarching goal of improving surgery quality through "in-silico" medicine (ISM) principles. At present, numerous complex surgeries involving Virtual Surgical Planning (VSP) and sterilizable 3D-printed Patient-Specific Instruments (PSI) and/or Graft-Specific Instruments (GSI) are being simulated and performed at the Rizzoli Institute. Preliminary data from previous protocols indicate a significant reduction in surgical time with the implementation of VSP and the utilization of PSI and GSI. The aim of this study is to enhance the current process of simulating, planning, and designing surgical support tools within 3D Printing Point-of-Care (3D POC) facilities. To achieve this, it is imperative to expand case volumes and systematically organize, categorize, and standardize simulation and planning procedures.
The hypothesis of this study is that musculoskeletal point of care ultrasonography would support the GP's decision and ultimately improve patient management. The aim of this study is to evaluate, in the context of suspected musculoskeletal abnormality, the contribution of musculoskeletal point of care ultrasonography to the general practitioner's overall decision-making strategy, defined according to the following 5 axes: diagnosis (I), therapy (II), patient orientation (III), prescription of complementary examinations (IV) and follow-up (V).
to investigate prevalence of upper limb musculoskeletal disorders and correlations to glycemic control.
The investigators' pre-clinical study confirms the positive effects of combined treatment (VT + HMB) on reducing fat-to-lean tissue ratio, intramuscular fat infiltration and increasing muscle strength in sarcopenia animal model. The results showed that fat mass could be decreased by ~32%, while histology Oil Red O staining indicated a decrease of fat by almost 60%; in contrast, lean muscle mass increased by ~14%. On muscle strength, combined treatment increased twitch force, tetanic force and grip strength by ~30-66%. These in vivo results are very encouraging and the investigators should explore its potential in clinical translation. As VT and HMB supplement have been commercially available and their compliance rates are satisfactory, they can be translated to clinical application easily. The investigators' next step is to confirm its clinical efficacy, so that sarcopenia becomes a new indication of VT and HMB. The hypothesis is that combined treatment of VT and HMB can retard the progression of sarcopenia in human, in terms of muscle mass, muscle strength and performance.
Microinstability of the hip joint is an important cause of hip pain and reduced hip function in young and active individuals. Hip microinstability is due to extraphysiologic hip motion and could be secondary to acetabular dysplasia, connective tissue disorder, macrotrauma, microtrauma, iatrogenic- and idiopathic causes. Treatment for hip microinstability is initiated with non-surgical treatment consisting of physiotherapy aimed mainly at stability. If non-surgical treatment fails, surgery with arthroscopic plication of the hip joint capsule is the preferred method. This study evaluates non-surgical and arthroscopic treatment for hip microinstability regarding hip function and adverse events.
The patients whose musculoskeletal symptoms initiated or aggravated with Covid-19, were compared with the patients whose musculoskeletal symptoms did not change with Covid-19. The variables; the demographic and treatment datas, admission symptoms, post acute-Covid-19 symptoms, laboratory, chest computed tomography findings.
The use of telemedicine in musculoskeletal assessment has been historically low. The current COVID 19 global pandemic has forced a paradigm shift with many centers rapidly adopting virtual visits to conduct care resulting in rapid expansion of use of telemedicine amongst practices. Mayoclinic has published The Telemedicine Musculoskeletal Examination for adults. Paediatric Musculoskeletal Matters (PMM) has put video Pediatric Gait, Arms, Legs and Spine (V-pGALS) assessment sheet on their website. However, there is a lack of the acceptability and reliability of these tools. The aim of this study is to investigate acceptability and reliability of real-time virtual video Pediatric Gait, Arms, Legs and Spine (V-pGALS) assessment for musculoskeletal assessment of children for telemedicine visits.
The aim of this study is to investigate the efficiency of an exercise program based on principles of motor learning in correction of Forward Head Position (FHP) in asymptomatic patients.
To determine if providing a written document in addition to the standard oral discussion of surgical risks improves risk recall for the parents/guardians of a child seen in consultation for cleft palate surgery, and if this has any effect on overall satisfaction after the procedure
The purpose of this study is to evaluate and optimize advances in radio frequency (RF) coil magnetic resonance imaging (MRI) technology at Cincinnati Children's Hospital Medical Center (CCHMC).