View clinical trials related to Ankle Injuries.
Filter by:Regional anesthesia is commonly used in orthopedic and surgical procedures in ankle and foot surgery to manage pain. The ultrasound-guided nerve block is a safe and effective regional anesthesia technique that provides effective pain management, decreasing opioid consumption. Postoperative pain management may be challenging and requires a multimodal approach. Regional anesthesia techniques in the pediatric ankle and foot surgery population are frequently used in postoperative pain management due to ultrasonography's increased experience and accessibility. Erector spinae plane block (ESP) is a relatively new regional anesthesia technique that provides analgesia covering spinal nerves' dorsal and ventral rami. There are few cases reports in the literature on the use of ESP block for lower limb surgery, for which it has a promising potential for future indication. The erector spinae plane block is a safe and effective regional anesthesia technique, which has earned new indications perioperatively since its description.
compare the dynamic foot print outcomes in subjects suffering from chronic ankle sprain to heathy subjects
Ankle sprain is a common injury. Around 712,000 sprains occur every day in the world. It is estimated that they account for 45% of sports injuries, being the second part of the body that is most frequently injured in sports. Of the patients who suffer this injury, around 70% will develop chronic ankle instability, a situation that can cause residual pain, recurrent sprains, a feeling of lack of stability and decreased physical activity. Two entities can be included in chronic ankle instability: mechanical instability, which involves movement of the joint beyond its physiological limit, and functional instability, which includes proprioceptive dysfunction, impaired neuromuscular control, postural control, and strength deficits. Currently, the conservative treatment of these patients consists of neuromuscular training through the use of dynamic balance platforms, taping, joint mobilization, dry needling, and the use of plantar supports, balance training being the one that has shown the best result. Ultrasound-guided percutaneous neuromodulation (PNM) is a recently used technique in the field of invasive physiotherapy that consists of applying a square wave biphasic electrical current through an acupuncture needle-like electrode that is place in close proximity to the nerve with ultrasound guidance. The aim of this study is to evaluate the effectiveness of PNM in ankle instability.
Ankle sprains are prevalent and debilitating injuries in daily living and sports activities. The emergency room annually cares for over 206,000 patients with lateral ankle sprain in the United States, resulting in over $12,000 of health care cost per injury. Although many rehabilitation techniques for ankle sprains have been implemented, up to 40% of individuals with ankle sprains experience residual symptoms including recurrent sprain, episodes of ankle joint "giving way," and feelings of instability, which collectively define chronic ankle instability (CAI). Individuals with CAI commonly exhibit neuromuscular dysfunction with reduced motor control due to decreased sensory input to the central nervous system (CNS) after the initial injury. As a result, the CNS sends altered motor signals to lower extremity muscles. These CNS changes contribute to various neuromuscular impairments in CAI patients, the most common of which is reduced balance performance. Neural stimulation techniques, such as the Hoffman reflex (H-reflex) and transcranial magnetic stimulation (TMS) have been used to directly assess changes in the CNS. One of the most consistently identified CNS changes in individuals with CAI is reduced ability to modulate spinal reflex excitability and corticospinal excitability of the calf muscle when transitioning from simpler to more complex balance conditions. Neural excitability refers to the ability of the central nervous system to elicit skeletal muscle contractions. That is, the spinal reflex excitability and corticospinal excitability can be described as the ability to contract muscle conducted by the spine and brain, respectively. Typically, healthy individuals modulate or quiet down their spinal reflexes and rely more on the corticospinal excitability during more demanding balance tasks. However, evidence indicates that the individuals with CAI are unable to modulate spinal reflexes and shift control to brain, leading to reduced balance performance. Given that the calf muscle plays a crucial role in balance, improving proper supraspinal and spinal reflexive control of the calf muscle is imperative to balance maintenance of individuals with CAI. To improve balance function for those with CAI, many balance training programs have been implemented to improve static and dynamic stability and proprioception for those with CAI. The majority of findings indicate that balance training can be effective in preventing initial and recurrent ankle sprains. However, it is unclear if common balance training methods can restore the function of the CNS in those with CAI. Therefore, the purpose of this study is to determine the effects of balance training on the calf muscle spinal-reflexive excitability modulation, corticospinal excitability, and balance performance in individuals with CAI. The rationale for this study is that patients with CAI require effective rehabilitation that can restore their neurosignature and improve balance ability.
Chronic ankle instability (CAI) is defined as the symptoms continuing 12 months after the first sprain and the functional and/or mechanical instability reported by the individual. The number of researches that include a combined treatment approach that will affect both sensory and motor components in rehabilitation strategies applied for CAI is limited. The aim of this study is to isolated sensory, isolated motor and combined targeted approaches for the treatment of chronic ankle instability (CAI); to compare the effects on postural control, range of motion, function and kinesiophobia and to contribute to an effective approach related to the applicability of Sensory-Targeted Ankle Rehabilitation Strategies in the treatment of CAI.
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.
In this study, syndesmosis injuries were detected in 143 of the patients who came to Atatürk University Faculty of Medicine, Orthopedics and Traumatology clinic from October 2017 to October 2021 with ankle fractures. 33 of these patients couldn't followed for various reasons. Screw or suture buttone method was applied on 110 patients. And patients were examined with lots of data to compare their results. A retrospective study was conducted.
The purpose of this study was to analyze if a low ankle dorsiflexion range is associate with dynamic knee valgus in youth basketball players.
Ankle injuries are one of the most common sports injuries. Ankle injuries account for 10% to 30% of all injuries and 5% to 20% of all time-wasting injuries. Athletes involved in sports such as football, basketball, and volleyball are particularly at risk for such injuries, largely due to the running and jumping activities involved. Basketball has one of the highest injury rates of any team sport, with 10 injuries in a 1000 hour period.
The main purpose of this study is to find out if scanning the foot using a 3D scanner influences the effectiveness of custom made insoles, compared to the more traditional approach of taking a foam-box impression cast of the foot. Both of these methods are currently used as standard care in the NHS Greater Glasgow and Clyde (GGC) Orthotic Department. In this study, insoles will be manufactured either from a direct 3D scan of the foot, or from a foam-box impression cast, and a series of questionnaires will be used to measure any changes in foot pain and foot function. The results from this study will be used to develop an information resource for both patients and Orthotists which will fill gaps in our current knowledge and hopefully guide us further in providing the best possible care for future patients who require insoles.