View clinical trials related to Musculoskeletal Injury.
Filter by:The benefit experienced by some patients when treated with dry needling,1 combined with the field-expedient nature of this intervention, make dry needling uniquely suited for the military healthcare environment. An improved understanding of the mechanism by which dry needling exerts its clinical benefits will allow clinicians to adopt more efficacious treatment strategies for Soldiers with chronic musculoskeletal pain. The proposed study will utilize functional near-infrared spectroscopy and structural health monitoring (SHM) to provide insight on the central and peripheral mechanisms of dry needling. Phase 1 will compare the cortical pain pathway response of thirty participants with non-traumatic shoulder pain receiving either true or sham dry needling. An additional 15 participants will be enrolled to receive true dry needling to determine if brain responses may be able to predict clinical improvement (responders versus non-responders) in phase 2. Since chronic pain after musculoskeletal injury is the leading cause of medical discharge from service and a primary source of disability in the U.S. military2,3, improved complementary and alternative treatment strategies have the potential to have a large impact on both military readiness and health care costs within the Armed Forces.
Office workers spend 11.6 hours per day in sedentary activities during the day, leading to increased health risks. Although there is literature on prevalence of musculoskeletal disorders and work station modification for office workers, successful implementation and follow-through of evidence-based recommendations in office environments is extremely challenging. This study aims to validate various techniques for evaluating posture, particularly in the neck, shoulder, and trunk, in order to develop evidence-based feedback for the office desk user. This study will include up to 40 volunteers over the age of 18 who regularly work on computer-based tasks at a desk. Participants will be observed working in a provided work station in a variety of different working postures. Data are collected using electromyography sensors, Kinect camera, and at least two video recording cameras to obtain postural information. Measurement of joint positioning and posture will be completed using an ergonomic screening tool from images collected throughout the testing. Participants will provide information on their level of comfort throughout various body regions in response to working in various positions. This will be an iterative study with multiple positions used to test the positioning of sensors, and the development of suitable algorithms to evaluate posture. The collected data will be used to inform sensing methods for office work posture.
Emergency departments (ED) in several countries integrated physiotherapists in order to reduce wait times for patients with musculoskeletal disorders (MSKD). These initiatives have indeed reduced wait times, length of stay, time waited before seeing a professional and the prescription of unnecessary consultations and diagnostic tests. In Canada, such initiatives are marginal and their effects have not been studied. The objectives of the project are to evaluate the effects of physiotherapy management of patients with MSKD in ED compared to usual practice on clinical course of patients, use of services and resources, and waiting time and length of stay in ED. The hypothesis is that patients presenting with a MSKD to the ED with direct access to a physiotherapist will have better clinical outcomes and that use of services, waiting time, and length of stay are going to be inferior to those of the EP group.
The long-term goal of this research is to implement methods that healthcare providers can use across diverse clinical settings to (1) identify athletes at risk for (musculoskeletal) MSK injury when cleared to return to play (RTP) after a concussion and (2) develop practical ways to reduce MSK injury risk following concussion RTP. The rationale is that once post-concussion MSK injury risk factors are known and prevention strategies tested, concussion RTP protocols will evolve to include injury risk reduction programs.
Rationale: The Emergency Department (ED) typically serves as the front line for patients with acute fractures and tendon ruptures. Pain control for these patients is an essential task of the ED physician. With the advent of the opioid epidemic, ED physicians are becoming more inclined to prescribe non-narcotic pain medications such as non-steroidal anti-inflammatory drugs (NSAIDs). Yet, the effects of NSAIDs on musculoskeletal healing are controversial. The few human studies examining the effects of NSAID use on fracture healing have provided conflicting results. Even less is known about the effects of NSAIDs on tendon healing as this information has largely been gleaned from rodent studies with contradictory findings. There has never been a large, prospective, randomized, double-blinded study to determine the effects of NSAIDs on healing after fractures or tendon ruptures. Here, I propose to pilot the first prospective, randomized, double-blinded study examining the effects of NSAID use on healing after tibia fractures and Achilles tendon ruptures. Aim 1 seeks to determine whether NSAID use is associated with an increased incidence of fracture nonunion and worse functional recovery six months following tibia fractures. I hypothesize that NSAID use after tibia fractures will be associated with an increased incidence of fracture nonunion and worse functional recovery. Aim 2 seeks to determine whether NSAID use is associated with worse functional recovery six months after Achilles tendon ruptures. I hypothesize that NSAID use after Achilles tendon ruptures will be associated with worse functional recovery. Significance: Emergency Department providers commonly prescribe NSAIDs for pain control following fractures and tendon injuries. However, the implications of this practice on bone and tendon healing are unknown. This proposal will pilot the first prospective, randomized, double-blinded study to determine whether NSAID use affects healing after tibia fractures and Achilles tendon ruptures. Results from this study will impact NSAID prescribing patterns for tibia fractures and Achilles tendon ruptures in the ED, either by demonstrating that they impair recovery and should be avoided, or that they need not be withheld as an effective non-narcotic form of pain control.
This study examines the diagnostic accuracy of the clinical examination as compared to MRI findings
Musculoskeletal (MSK) injuries, including limb injuries, are the most common cause for Emergency Department (ED) visits for children with pain. Broken arms and legs are known to cause moderate to severe pain in most children, yet previous research shows that children's pain in the emergency department is still under-treated. Further, children are less likely to receive appropriate pain medicine than adults with similar injuries. The purpose of this research study is to compare the effectiveness and safety of 3 different possible medication combinations, for the pain management of children with acute MSK limb injuries. The pain medicines the investigators are studying are ibuprofen (Advil/Motrin), acetaminophen (Tylenol/Tempra), and hydromorphone (Dilaudid). This study will consist of 2 trials that will be run simultaneously. Eligible caregiver/ child pairs presenting to the emergency department with acute MSK limb injury will decide in which trial they wish to participate: the Opioid trial or the Non-Opioid trial. If they select the Non-opioid trial, they will have an equal chance of receiving either (a) Ibuprofen OR (b) Ibuprofen and acetaminophen. If they select the Opioid trial, they will have an equal chance of receiving either (a) Ibuprofen OR (b) Ibuprofen and acetaminophen OR (c) Ibuprofen and hydromorphone. Regardless of which study they choose, their child will, at minimum, receive Ibuprofen (Advil/Motrin) for their pain. All study medicines will be given in oral liquid form. This study will help the investigators figure out which pain medicine or combination of pain medicines works best for children with limb injuries. Promotion of adequate acute pain treatment of children presenting to the ED may help prevent the known short and long-term effects of inadequately treated pain in children, including unpleasant memories, stress and anxiety upon future visits to healthcare, and compromised functional outcomes such as missed school.
This study aims to prospectively investigate the relationship between a number of clinical and biomechanical variables and running-related injuries among a group of novice and recreational runners over a two year time period. To date, the incidence of running injuries among runners is high, with a lack of prospective research investigating the factors related to injury. It is thought that loading in excess of the tissues capabilities may be be a contributing factor to sustaining a running related injury. As such, this study hypothesizes that biomechanical factors may be related to injury. Healthy participants will perform a battery of clinical tests at baseline, as well as completing a survey that details their injury history and training habits. Kinematic and kinetic motion analysis will be used as participants perform a series of functional movements and a treadmill run. Enrolled participants will be monitored for the occurrence of running-related injuries via email for the duration of the study.
This study evaluates the use of short-wave diathermy (SWD) as an novel experimental model to induce transient and intensity-controlled muscle pain by heating muscle tissue.
The study will assess the associations between various asymmetries (strength, flexibility, balance, etc.) in different athletes. After the measurements, injury occurrence will be tracked prospectively for 1 year, and retrospective analysis will be performed as well. The main aim of the study is to determine the asymmetries that impose the biggest injury risk for athletes.