5 Clinical Trials for Various Conditions
Musculoskeletal sprain/strain injuries and disorders (MSID) have a major impact on health, quality of life and societal productivity. Early intervention for pain following acute MSIDs may prevent secondary complications of chronic pain, disability, reduced quality of life or lost productivity. The investigators goal is to evaluate the efficacy of a computer-based self-management intervention for reducing pain and improving function in persons treated in on-site physical rehabilitation centers. The specific aims are:1) evaluate the efficacy of a computer-based self-management intervention in reducing pain and self-efficacy and function in high risk MSID patients; 2) determine long term impact during a six month follow-up period; and 3) determine whether reductions of pain and improved function translate into reductions in lost work time days away from work, restricted work days, worker's compensation costs and re-injury rates during the 6 month follow-up. Persons with sprain/strain injuries at risk for poor pain control will randomized to either: 1) control condition - standard care in the rehabilitation center plus computer exposure or 2) standard care plus computer-based self-management pain intervention. Assessment will be at baseline, treatment completion, 3 and 6 months. The primary outcome measures are self-efficacy, pain and physical/psychosocial functioning and secondary outcome measures are days away from work, restricted work days worker's compensation costs and re-injury rates. The investigation will also provide unique and valuable information regarding patients acceptance and use of computer-based interventions following acute injury. By establishing the utility and efficacy of computer-based pain management interventions for MSID the investigators have the potential to improve the health and quality of life of persons with injuries, improve productivity and develop new methods for health care delivery.
The primary objective of this study is to evaluate the feasibility of implementing BFR in the rehabilitation treatment of isolated ankle sprains as well as to evaluate the clinical benefits of BFR when compared to standard treatment. This study will evaluate the efficacy of using BFR therapy for the treatment of acute grade I and II ankle sprains. The investigators will evaluate clinical outcomes of range of motion (ROM) and strength testing of ankle dorsiflexion, plantarflexion, inversion, and eversion. This will be a small, randomized control trial study. The investigators will enroll a total of 40 participants, 20 participants will undergo standard physical therapy for isolated lateral ankle sprains and 20 participants will undergo BFR therapy for an isolated lateral ankle sprain. Patients will be randomized into control and experimental group via block randomization.
This study evaluates the addition of a lidocaine patch to ibuprofen in the treatment of acute musculoskeletal pains. Half of the participants will get only ibuprofen for their pain, while other half will receive lidocaine patch plus the ibuprofen. After addition of the pain medications, the participants will be followed for their pain scores and return visits.
The use of Bone Marrow Autologous Collection (BMAC) in musculoskeletal conditions including osteoarthritis and tendon injuries has been growing. Outcome evidence continues to be sparse. The purpose of this study is collect a longitudinal case series of patient reported outcomes following BMAC injections for musculoskeletal conditions including osteoarthritis, tendinopathy and injuries to ligaments, tendons and muscles.
Reducing pain and recovery of strength and function are major challenges in physical therapy. Transcranial direct current stimulation (tDCS) is a novel intervention that has gained popularity in the rehabilitation of athletic injuries, pain management, and sports performance. Acute application of tDCS has been shown to modulate the perception of effort and fatigue, enhance motor learning, improve endurance performance, and improve muscular power and strength. tDCS has also been shown to reduce pain in patients with chronic pain conditions. Using a double-blind, randomized clinical trial design, we aim to evaluate the effectiveness of tDCS plus standard rehabilitation compared to rehabilitation alone on pain, balance and proprioception, functional performance, and strength following acute ankle inversion sprain. We hypothesize that the group using tDCS will demonstrate superior outcomes in all variables of interest.