View clinical trials related to Musculoskeletal Pain.
Filter by:Musculoskeletal disorders and degeneration represent injuries or pain in the body's joint ligaments, tendons, muscles, nerves, and skeletal elements that support extremities, spine and related tissues. Direct injuries and aging contribute to breakdown and inflammation of these tissues, leading to debilitation and loss of function in these areas. This has major impact on quality of life, occupational/recreation limitations, and psychosocial implications. Many therapies have been employed including medications, physical therapy, occupational therapy, and a variety of surgical interventions each of which have distinct limitations, often covering the issues versus providing actual healing and return to function. Many reports are now available utilizing self-healing options which include use of stem/stromal cellular therapy or biocellular treatments (either from adipose or marrow) using targeted placement of cells, matrix and platelet concentrates. Termed cellular or Biocellular therapy (typically optimized using ultrasound guidance). It is proposed that use of cellular isolates or cell-stroma derived from the largest deposit of these cells (adipose greater than marrow), may use in conjunction with targeted placement or as a stand alone methodology intravascular use. This study is designed as a interventional means to examine the safety and efficacy of the use of cellular and tissue stromal vascular fraction in musculoskeletal pain, dysfunction degeneration or inflammatory disorders.
Nearly 2 out of 10 women will sustain a distal forearm fracture throughout their lifespan.Recent longitudinal studies illustrate that as many as 1/3 of all persons who undergo closed reduction and casting for distal radius fractures (DRF) go on to develop type 1 complex regional pain syndrome (CRPS). Graded motor imagery (i.e., motor imagery and mirror therapy), a movement representation technique, is strongly supported in the literature as a treatment of CRPS and has recently been suggested as a potential strategy to prevent its onset. Other complications include disability, wrist/forearm tightness and sensorimotor changes. The investigators propose that an early intervention protocol which includes graded motor imagery (GMI) will improve the pain, functional and upper limb sensorimotor outcomes of persons following closed reduction and casting of DRF relative to a standard of care intervention.
This study evaluates whether the implementation of an integrated clinical program for chronic musculoskeletal pain and depression behave better clinical outcomes than the usual approach in primary care
Previously it has been demonstrated that exposing the heart to electromagnetic field during exercise stress test improves the recovery following the stress test. This is explained by the effect of the electromagnetic field on the sympathetic activity of the heart. In the present study we would like to further investigate the effects of electromagnetic field on autonomic nervous system function in patients with chronic musculoskeletal pain that usually have high sympathetic activity. Each patient will be exposed to 20 minutes of electromagnetic field during which the autonomic nervous system function will be measured. In addition, patient tolerability to the exposed magnetic field will be investigated. We assume that short exposure to electromagnetic field would result in decreased sympathetic activity and therefore, on the long run, could be suggested as a therapeutic tool for such patients.
Vitamin D3 is produced in the skin following exposure to UVB light from the sun or artificial sources, and occurs naturally in a small range of foods.More recently, several reports underlined the impact of vitamin D on the prevalence and consequences of inadequate vitamin D intake and the research supporting its benefits for alleviating chronic musculoskeletal pain and fatigue syndromes in outpatients. Experts have recommended that vitamin D inadequacy should be addressed in all patients with bone or joint pain, myalgia, fibromyalgia, or chronic fatigue syndrome. It appears that soothing the daily musculoskeletal pain by supplementation of vitamin D may be a simple, well tolerated, and cost-effective modality. Aim of study: To study the potential therapeutic effects of vitamin D supplementation on patients with persistent musculo-skeletal pain. Clinicalparameters, visual analog score,short form McGill Pain Questionnaire,patient global perceived effect, quality of life assessed by SF-36 Questionnaire and laboratory parameters, the levels of 25 OH-Vitamin D, CRP, IL-6, IL-8, TNF and prostaglandin E will be assessed.