View clinical trials related to Ankle Injuries.
Filter by:Complex high energy fractures of the lower extremity are life changing injuries and are known to be associated with poor functional outcome post operatively. The list of potential post-operative complications associated with these injuries is long, and the worst of these fractures can even be limb threatening. One of the most difficult and prevalent post-operative issues this patient population faces is chronic pain and its association to opioid addiction, which is currently an epidemic across North America. These individuals not only present with physical insult but psychological trauma as well, which also greatly affects these patients post-operatively. Properly educating the patient about their injury and the process that they will embark on can greatly empower the patient as they begin their journey of rehabilitation. This process can hopefully mute or silence some of these modifiable risk factors predisposing patients to poor functional outcomes and chronic pain. The investigators also hope to help them initiate/develop coping strategies to better overcome the many obstacles these patients face and to do so using 3D printing. 3D printed models have not only been demonstrated to be valuable in orthopaedics, when it comes to educating patients about their disease and associated interventions, but many other specialties as well; such as: cardiac surgery, urology, and general surgery. Literature suggest that often little is understood or retained by the patient following a patient consent with regards to their injury, potential complications, interventions to be undertaken, as well as the rehabilitation process to follow. By providing the patient with a 3D printed model of their fracture while educating them pre-/post-operatively, the investigators hope they will better understand the aforementioned, often forgotten points, indirectly yielding better overall patient satisfaction, patient outcomes and pain scores.
Aim of the study is to establish the efficiency of the mulligan concept vs a sham group (who will also serve as control). Patient with an subacute ankle sprains will be assess following the mulligan concept and then randomized in two groups: Mobilization with movement (MWM) group and Sham group. MWM group will receive 3 sets of 10 repetitions of treatment (i.e. passive accessory glide during an active dorsiflexion) while the sham treatment will do 3 sets of 10 active dorsiflexion with the hand of the Physiotherapist only apply on the skin. 3 sessions with 4 days apart will take place. outcomes will be measure before and after every sessions.
The investigator's purpose is to compare the effects of talocrural joint mobilization with movement versus thrust mobilization on functional performance in subjects reporting chronic ankle instability (CAI).
The aim of this study is to investigate the effect of neuromuscular training on balance by using stroboscopic glasses in athletes with chronic ankle instability.
Anterior talofibular ligament is the most injured ligament in ankle sprain. Investigators will include ankle sprain patients who have ankle pain or instability more than 3 months. Ultrasonography will be done for confirm ligament injury. Participants will be randomized into two groups. Participants in dextrose injection group will accept dextrose 15% injection to tendon and enthesis. In the other hand, subcutaneous sham injection to control group. Pain condition, stability test and function test, will be evaluated in 1 week, 4 weeks and 12 weeks after injection.
Injuries to the ankle joint account for 20% of the population that is afflicted with joint injury and the largest percentage of self-reported musculoskeletal injuries (> 10%) are to the ankle. Ankle sprain has a large portion in ankle injuries and occurs not only in the sporting population but also in the general community. Although the acute symptom would be resolve quickly, but many people still report persisting problems, such as pain and instability. Chronic ankle instability (CAI) is one of the most common of these residual problems. Kinesio Tape and White Duck Tape are often applied in patients with CAI, attempt to increase the ankle joint stability, and improve motor performance. However, the previous studies had controversial result to the effects of kinesio tape and white duck tape. The previous studies also showed the insufficient of supporting force and elasticity of kinesio tape and white duct tape. The Dynamic Tape was developed by Kendrick in 2009, which refined the characteristic of elasticity and supporting force. Therefore the purpose of study is to comparison the effects of static and dynamic balance performance, weight shifting ability and functional movement between kinesio tape, white duck tape and dynamic tape when applied on patients with CAI. With the result may provide an optical method to increase the movement performance of patients with CAI. The study suspected to recruit 90 volunteers with CAI, and randomly divided to three different groups: Kinesio tape group, White duck tape group and Dynamic tape group. We make postural stability test and limit postural stability test with Biodex Balance System (SD), Y-balance test and single leg hop test to both affected side and sound side foot before applying the tape. After applying the tape according to the divided group, we will repeat the test above again. We will compare the results of the test between groups and within groups.
Ankle sprain is a fairly common sports medicine clinic. In Taiwan at least 150,000 to 200,000 people will suffer from ankle sprains every years. Clinicians have been looking for ways to shorten treatment time and reduce discomfort. Platelet Rich Plasma(PRP) is an endogenous therapeutic technology that involved in regenerative medicine due to its potential to stimulate and accelerate tissue healing. PRP can release lots of growth factors like platelet-derived growth factor (PDGF),transforming Growth Factor Beta(TGF-β), vascular endothelial growth factor(VEGF),Epidermal growth factor(EGF) and insulin-like growth factor (IGF). Its use had been based on the theory that increased autologous platelets, that then yield high concentrations of growth factors and other proteins, will lead to increased healing of tendon and soft tissue on a cellular level. In addition, there is no objective evaluation after treatment, so that patients can not provide effective and accurate quantitative feedback. In this study, the investigators divided patients into three groups, respectively, general rehabilitation therapy, autologous PRP injection therapy, autologous PRP injection combined with general rehabilitation therapy.
With IRB approval, a prospective single-cohort clinical trial will be performed to assess safety and efficacy of total biologic arthroplasty of the ankle. With informed consent, patients (n=10) who require tibio-talar arthroplasty based on physical examination and diagnostic imaging will be enrolled. Primary criteria for inclusion will be Grade IV changes in the articular cartilage of the tibial plafond and/or talar dome as determined by physical examination, diagnostic imaging and/or arthroscopy by the attending surgeon. Exclusion criteria include acute injury to any other part of the affected lower extremity or inability to comply with the protocol. After enrollment, patients will undergo standard ankle radiography and complete assessments (described below). Size-matched (standard clinical methodology) MOPSTM allografts (Musculoskeletal Transplant Foundation, Edison, NJ) from the same donor will be obtained to treat the entire tibiotalar joint. The affected joint will be treated with OCA transplants using our current technique and instrumentation. Osteochondral grafts including MOPSTM OCAs are regulated under U.S. Food and Drug Administration (FDA) section 361 of the Public Health Service Act and 21 Code of Federal Regulation 1271 that defines human cells, tissues or cellular or tissue based products (HCT/P). Patients will follow a managed post-operative rehabilitation protocol that is standard for those that have had an osteochondral allograft to their ankle. Range of motion and patient-reported outcome measures (PROMs) including VAS pain score, AOFAS, and PROMIS Mobility as well as complete radiographs (XR) of the affected ankle will be obtained prior to surgery and at 6 weeks, 3 months, 6 months, and 12 months after surgery to evaluate healing, function and evidence for arthrosis. MRIs for cartilage composition (12 months after surgery, and serum and urine biomarkers for treatment monitoring (preop, 6 and 12 months after surgery) will be performed. We will document all adverse events and complications, including joint or incision infection, graft failure, hardware failure, and arthrofibrosis. Patients with a VAS pain score >5 beyond 3 months postoperatively or clinical or diagnostic imaging evidence for nonunion or graft collapse will undergo MRI of the ankle to determine the appropriate clinical course of action. OCA survival will be determined based on maintenance of acceptable levels of pain (<2 VAS) and function and/or need for revision surgery or total ankle arthroplasty, fusion, or amputation.
Lateral ankle instability may be acute or chronic. Acute instability usually occurs due to extreme rear foot supination with planter-flexion trauma leads to injury of lateral collateral ligament complex especially the anterior talofibular ligament. Most ankle ligamentous injuries are treated conservatively. However, 20% to 40% of patients complain of chronic instability and persistent discomfort. Structural instability, loss of proprioceptive capabilities, and the weakness of peroneal muscles seem to induce chronic instability
The purpose of this project is to compare a novel sensorimotor ankle rehabilitation training (SMART) protocol for Lateral ankle sprains (LASs) against a standard of care (SOC) protocol to determine if it is more successful at producing successful one-year outcomes and lower rates of re-injury and improved health. This will address the identified needs for evidence-support and reintegration strategies to improve understanding of the management of patient rehabilitation strategies throughout the rehabilitation process following neuromusculoskeletal injury. The project will validate an innovative rehabilitation approach while providing metrics of success using a variety of clinical and innovative markers.