View clinical trials related to Leg Injuries.
Filter by:The main objective of this trial is to investigate the effects of a training protocol for the foot and ankle complex on the prevalence of running related injuries on long distance runners.
Evidence supports the use of two dimensional video analysis to assess the presence of dynamic knee valgus during generally used screening tasks, however there is limited evidence to support the use of the various smart phone applications as a time and money saving option for clinic use . Subjects that present to the clinic and display dynamic valgus at the knee during the lateral step down test will be given the option to participate in the study. If they consent to the study they will be evaluated with 2-Dimensional video analysis to determine the amount of valgus present at the knee during the lateral step down test. The subject will also have the smart phone attached to their lower leg and the amount of valgus will be concurrently measured by the selected application. The primary objective of this study is to determine the validity of an application on the smart phone to provide an objective measure of dynamic knee valgus. The secondary objective of this study is to determine the possibility of the use of the application as a source of feedback during neuromuscular re-education training in order to decrease or eliminate a subject's dynamic valgus collapse and subsequently decreased their risk for future injury.
The goal of the PRIORITI-MTF study is to help determine whether a new type of custom designed brace, called the IDEO ™ along with a physical therapy program, called Return to Run, improves physical function. This brace was developed for wounded warriors who wanted to return to an active lifestyle. The primary objective of this study is to examine the benefits (and cost-benefits) of an integrated orthotic and rehabilitation program that incorporates the Intrepid Dynamic Exoskeletal Orthosis (IDEO) and the Return to Run (RTR) physical therapy regimen, but designed for scalability in the broader military environment (i.e. beyond San Antonio Military Medical Center where the program was developed)
The purpose of this study is to understand the effects of muscle strengthening and balance exercise interventions on muscle strength, running mechanics and postural control in novice recreational runners. Participants will be assessed before and after they engage in an 8-week exercise intervention program.
One technique for the nerve block involves injecting the numbing medicine where the nerve is together (higher up in the back of the thigh). The other technique involves injecting the numbing medicine where the nerve splits into two parts. By injecting numbing medication around the nerve(s), there will be less pain after the procedure. It is thought that the numbing medicine will be easier to inject in the group that the nerves are split. It is expected that subjects may need less pain medication and have lower pain ratings in this group too.
The purpose of this study is to compare injecting local anesthetic (numbing medication) in different patterns around a major nerve in the leg. Patients who undergo surgery to the lower leg and/or foot are usually offered the option of a nerve block to help with pain control after surgery. A nerve block involves injecting local anesthetic (numbing medicine) by a nerve or nerves that provide sensation to the area where surgery will be performed. The local anesthetic (numbing medication) numbs up the area where the surgery is performed and helps decrease the amount of pain felt after surgery. The local anesthetic (numbing medication) can be injected in various patterns by a nerve, such as in one spot by a nerve or completely surrounding a nerve. The local anesthetic will be either injected around the sciatic nerve or will injected in a way that will split the sciatic nerve into the two component nerves that make it up, the tibial and sciatic, and surrounds each nerve. The hypothesis is that subjects in the group that local anesthetic is injected in a pattern that separates the sciatic nerve into the two component nerves may have a faster onset time of regional anesthesia and block success than subjects in the group that have the local anesthetic injected at around the nerve.
Many people with a leg amputation have difficulty walking even after they have finished their rehabilitation. The purpose of this study is to see if a large amount of walking practice on a treadmill can improve functional abilities.
Sports-related injuries are a serious concern for physically active children and adolescents. Previous research, including ours at Chicago public high schools, shows our neuromuscular training program, the Knee Injury Prevention Program (KIPP) reduces sports-related injuries in female athletes by up to 88%. However, KIPP is not well-studied in males or younger age groups. This project aims to determine KIPP's effect on sports-related injuries and physical fitness among 5th-8th grade students in Chicago public schools. The study will take place during the 2011-2013 school years. To measure KIPP's effect on sports injuries, we will recruit 5th-8th grade sports coaches and their athletes, randomize coaches by school into two groups, then train the intervention group to implement a 10-minute KIPP warm-up before practices and games. Control group will perform their usual warm-up. Research assistants will collect athlete participation and injury data from coaches weekly. To determine feasibility of KIPP in PE classes and measure its effect on fitness, we will recruit PE teachers to implement the warm-up in PE classes for a minimum of 10 weeks, and record students' presidential fitness test scores before and after the 10+ weeks. Results of this study will guide strategies for preventing sports-related injuries and improving physical fitness in 5th -8th graders.
Recent dysvascular and diabetic amputees as well as older, long-term traumatic amputees are at risk of functional decline, joint degeneration, skin breakdown and further limb loss due to the forces placed on the contralateral limb through prosthetic ambulation. If specialized prosthetic gait training and proper use of the appropriate prosthetic foot can decrease forces on the intact limb, the long term health and quality of life of veterans with amputations could be substantially improved. We will address two key questions: Key Question 1: After receiving specialized gait training and a new prosthetic socket, will subjects demonstrate differences in gait symmetry and external mechanical work between the bionic and conventional prosthetic feet, while performing various functional activities. Key Question 2: Can external mechanical work be used as a clinically friendly measure to differentiate between prosthetic feet?
The purpose of this study is to evaluate the impact of thromboembolic diseases and heparin complications in patients with a lower limb trauma supported by physicians of mountain.