View clinical trials related to Athletic Injuries.
Filter by:Sports-related soft tissue injuries, such as sprains, strains, and contusions, are a common painful condition. Current treatment includes oral nonsteroidal anti-inflammatory drugs (NSAIDs), which have a high incidence of intolerable gastrointestinal side effects. Ancient Indian healing system, Ayurveda addresses the need of sports medicine up to certain extent. In practice, there are different treatment modalities for injuries, uses of drugs & dietetics as well as practices of rehabilitation. Although, previous evidences support the efficacy of ayurveda practices with significant reduction in pain, joint tenderness, joint swelling, mobility restriction and early morning joint stiffness. But there is no treatment studies have been performed to evaluate the clinical outcome for specific sports injuries. This study assessed the efficacy and safety of ayurveda gel and patches applied to the painful injury site for the treatment of acute minor sports injury pain.
The primary purpose of this study is to determine whether Flector Patch is safe for use in children. The secondary purpose is to assess blood levels of diclofenac, the active ingredient in Flector Patch.
Sports-related concussions are common in adolescent-athletes. Prolonged recovery after concussion or post-concussion syndrome (PCS) is a public health problem. This project will determine the effectiveness of an aerobic exercise program for management of PCS and it will evaluate the influence of exercise on biologic correlates of PCS.
The main objective of this study is to estimate the incidence and prevalence of Internal Rotation Deficit (IRD) defined by a measure of IRD 2 (Internal Rotation Deficit in position 2) strictly greater than 20 ° in a population of advanced-level handball players over a training season.
In recent years, media attention has focused on the long-term sequelae of repeated concussive episodes in professional athletes. The growing understanding of the damage done by what was once considered a "ding" during a game or match, and the neurologic consequences of "playing through" or returning to play too soon has led to additional interest in and concern for pediatric athletes (18 or under) who experience sports-related concussions during game or practice play. Because it has only been in recent years that the full scope of damage done by repeated concussive episodes has come to light, very little research has been done on treatment of concussion in either adults or children. Brain injuries in children can be especially problematic, as the brain may continue to develop until the child reaches the age of 24 or older, so concussion during this time of development may be particularly damaging. Docosahexaenoic acid (DHA) is an omega-3 fatty acid commonly found in both fish oils and algae. DHA is known to improve development of the eyes and brain in young children. It is thought to be an effective anti-inflammatory and anti-oxidant, and since it occurs naturally and causes very few harmful side effects, it may be a useful compound in the treatment of pediatric concussion. This is a feasibility trial of DHA for the treatment of sports concussion in a pediatric population. The investigators' primary aim is to determine acceptability of randomization for this compound as well as rate of enrollment given our clinical population. The investigators' secondary aim is to examine preliminary outcomes. The investigators hypothesize that subjects who take 2 g of DHA daily for 3 months will see a shorter time to full recovery and return to play and a shorter time to resolve balance disturbance. These are good, albeit unvalidated, clinical indicators of concussive recovery.
There is evidence that intense physical activity has a potential effect on thrombotic events due to catecholamine release. The hormones leptin and adiponectin have been used as markers of cardiovascular risk, but they are few and contradictory studies that relate physical training intensity and duration of high plasma concentrations of these hormones. The use of antioxidants, such as proanthocyanidins present in grapes, may help in reducing the undesirable effects of intense training.
Soccer accounts for more than 10% of all sport injuries in youth requiring medical attention. The injury rates in youth soccer where there is no established injury prevention program are estimated at 22-30 injuries/100 participants/year, or 3.4-5.6 injuries/1000 participation hours. Risk reductions ranging from 32-43% have been found for youth players participating in neuromuscular training programs, such as the FIFA 11+, that include agility, balance training, and strengthening components. Although studies have shown that the FIFA 11+ is effective at reducing injuries, there is poor uptake of the program in the youth soccer community. It is therefore important to develop ways of delivering the program to soccer coaches and players in order to maximize its protective benefit. The Health Action Process Approach (HAPA) is a behavior change theory that has been used to successfully predict the uptake of health behaviours in a number of populations, such as cancer screening and exercise, but has not been tested in sport injury prevention settings. The primary objective of this study is to examine the effect of a HAPA-based coach education intervention on adherence to the FIFA 11+ in a group of female youth soccer players over the course of one outdoor and one indoor season. The secondary objective is to examine the dose-response relationship between program adherence and injury, comparing program adherence and injury rates in outdoor and indoor soccer. Our hypothesis is that teams whose coaches receive a HAPA-based intervention will have greater adherence to the program than teams whose coaches do not receive the intervention, and that that injury incidence will decrease as adherence to the program increases. It is expected that program adherence will be lower and injury rates will be higher in indoor soccer compared to outdoor soccer.
The purpose of this study is to study the biomarkers in subjects before and after sports-induced traumatic brain injury. The assay will be studied in a sample population of subjects over the age of 18 participating in college sports.
The overall goal of this project is to reduce the risk for anterior cruciate ligament injuries by designing a targeted intervention that will alter the known kinematic and kinetic risk factors associated with ACL injuries. This study will address the following specific aims: 1) To optimize a wearable, targeted, active training feedback device to reduce the risk of ACL injury among healthy subjects by inducing patterns of movement that alter the known kinematic and kinetic risk factors associated with ACL injuries. 2) To evaluate the efficacy of the active device and determine if the device reduces the risk of ACL injury among healthy subjects by effectively inducing patterns of movement that alter the known kinematic and kinetic risk factors associated with ACL injuries.
To investigate prevalence and profile of sports injury in Taiwanese adolescent baseball players in a longitudinal study.