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Injury Leg clinical trials

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NCT ID: NCT06370273 Not yet recruiting - Thrombosis Clinical Trials

Thromboprophylaxis in Lower Limb Immobilisation

TiLLI
Start date: May 2024
Phase: Phase 3
Study type: Interventional

The goal of this clinical trial is to find out the clinical and cost effectiveness of Thromboprophylaxis in participants who have been placed in a plaster cast or splint after injury. The main questions it aims to answer are: - whether giving tablets to people at high risks of clots after a leg injury is as good as injections (standard care) - whether giving any medication after a leg injury is better than standard care (advice only) for people at low risk of clots. Participants will be assessed to be high risk (TiLLI High) or low risk (TiLLI Low). People who are at high risk of clots will have either tablets or injections to reduce their risk. People at low risk will receive tablets, injections or no medication. Drug treatments will be provided for the duration of immobilisation or up to 42 days (whichever is earlier), in accordance with current NICE guidelines. The participants will be followed up for 90 days following randomisation.

NCT ID: NCT05699174 Recruiting - Amputation Clinical Trials

PO vs IV Antibiotics for the Treatment of Infected Nonunion of Fractures After Fixation

POvIV2
Start date: May 30, 2023
Phase: Phase 3
Study type: Interventional

This is a Phase III clinical randomized control trial to investigate differences between patient with an infected nonunion treated by PO vs. IV antibiotics. The study population will be 250 patients, 18 years or older, being treated for infected nonunion after internal fixation of a fracture with a segmental defect less than one centimeter. Patients will be randomly assigned to either the treatment (group 1) PO antibiotics for 6 weeks or the control group (group 2) IV antibiotics for 6 weeks. The primary hypothesis is that the effectiveness of oral antibiotic therapy is equivalent to traditional intravenous antibiotic therapy for the treatment of infected nonunion after fracture internal fixation, when such therapy is combined with appropriate surgical management. Clinical effectiveness will be measured as the primary outcome as the number of secondary re-admissions related to injury and secondary outcomes of treatment failure (re-infection, nonunion, antibiotic complications) within the first one year of follow-up, as defined by specified criteria and determined by a blinded data assessment panel. In addition, treatment compliance, the cost of treatment, the number of surgeries required, the type and incidence of complications, and the duration of hospitalization will be measured.

NCT ID: NCT05552430 Completed - Injuries Clinical Trials

Virtual Reality for Pain in Acute Orthopedic Injuries

Start date: October 17, 2022
Phase: N/A
Study type: Interventional

The goal of this study is to pilot test a skills-based virtual reality (VR) for acute orthopedic injury. It will measure the feasibility, signals of improvement, exploratory pain mechanisms, and user experience of an established skills-based program (RelieveVRx) for acute orthopedic injury.

NCT ID: NCT04748718 Completed - Injury;Sports Clinical Trials

Serial Movement Assessment in Collegiate Athletes Who Perform Injury Prevention Training

Start date: August 17, 2021
Phase: N/A
Study type: Interventional

Athletic injury can result in decreased athletic performance or removal from sport participation. There may also be psychological and financial impacts of athletic injury. Additionally, there can be long-term consequences, such as increased risk of subsequent injury or arthritis. Therefore, determining ways to prevent athletic injury from occurring is critical. Movement quality during sport is related to injury risk. Athletes who move poorly are generally at increased risk of injury compared to athletes who move well. Movement quality can be improved through exercise-based injury prevention training, thereby decreasing injury risk. This purposed of this study is to evaluate movement quality multiple times over the course of an athletic season in collegiate athletes who perform injury prevention training. The hypothesis is that movement quality will improve over the course of an athletic season.

NCT ID: NCT04541992 Recruiting - Injury Leg Clinical Trials

Sensors Prediction Study

Start date: September 12, 2022
Phase:
Study type: Observational

The purpose of this study is to test whether measures of balance and agility can help predict if a Service Member may be at risk for an injury to their legs before beginning their school and training.

NCT ID: NCT04134741 Completed - Back Pain Clinical Trials

Assessment of Effectiveness of Neuromuscular Training in Treatment of Lumbar Spine in Football Players

Start date: January 3, 2019
Phase: N/A
Study type: Interventional

The project aims to assess the effectiveness of neuromuscular training according to the concept of Kinetic Control (KC) in prevention and treatment of lumbar spine and knee pain and in reduction of risk of injury in female football players. The study was designed as single-blind Randomized Controlled Trial (RCT) and conducted on a group of 18 female football players from University Club of the Academic Sports Association of Pope John Paul II State School of Higher Education in Biała Podlaska. Participants were randomly divided into two 9-person groups: A - used standard training and neuromuscular training (Kinetic Control) and B - used only standard training. Main hypothesis: The application of neuromuscular therapy (KC) reduces the risk of injuries and pain of the lumbar spine and the knee and improves the static and dynamic balance. Research questions: 1. Will the application of the KC training reduce the risk and frequency of spine and knee injuries in females football players? 2. Will the KC training lead to reduction of the intensity of lumbar spine and knee pain? 3. Will the application of the KC training lead to increase in the torque strength of knee flexors and extensors and improved stability of the knee? 4. Will the application of the neuromuscular training (KC) lead to reduction of the disability level and improved functional level?