View clinical trials related to Ankle Sprains.
Filter by:This study will analyze the effects of an elastic taping application protocol in individuals with chronic ankle instability. One group will perform a protocol with increased tape tension for five weeks while the other group will receive the same tape without tension during the same period.
The hypothesis is that self-myofascial release (SMR) intervention on the cuff muscles would affect positively sprint performance and jump height, as well as, decrease Achilles tendon stiffness. The second hypothesis is that tissue flossing would be more effective than foam rolling. The participants will be randomly assigned to foam rolling, tissue flossing, and control group (without any intervention). After the intervention, repeated measures will be performed (15m sprint, countermovement jump (CMJ) and Achilles tendon stiffness). This will aim to improve sprint time, jump height and decrease tendon stiffness.
The objective of the study is to evaluate the postural control and proprioception before and after external capsulo-ligament reconstruction for ankle instability.
Introduction. The ankle sprain is one of the most prevalent injuries in soccer players. The muscle strength deficit is one of the variables that can most influence the development of a sprain. It has been indicated how the Kinesiotape and the myofascial direct induction technique can improve functionality. Aim. To verify the effectiveness of the KinesioTape and the myofascial technique combined with strength training, in the reduction of pain, Rom increase, stability and strength in subjects who suffered ankle sprains. Study design. Randomized, multicentric clinical study with follow-up. Methods. A random assignment of the subjects recruited in two study groups will be carried out: experimental and control group. The treatment will last 4 weeks, with 2 weekly sessions, of 50-60 minutes. The intervention includes the application of kinesiotape and myofascial treatment with strength training. The study variables will be pain (VAS), mobility (goniometer), stability (ProKin balance) and strength (MicroFet). A descriptive statistical analysis will be carried out calculating the main statistical characteristics. By means of the Kolmogorov-Smirnov test the distribution of the normality of the sample will be assessed. With the t-student test for related samples we will calculate the difference of means between the evaluations made in both groups. With an ANOVA of repeated measures we will calculate the intra and intersubject effect. The calculation of the effect size will be done with the Cohen formula. Expected results. Improvement in stability, increase in range of motion, decrease in pain and increase in strength.
The aim of the study is to investigate the effects of a 4-week, unilateral balance exercise training program on bilateral balance and explosive power in athletes with chronic ankle instability. The participants were randomly divided into Stable Ankle Training Group (SG) (n=9), Unstable Ankle Training Group (UG) (n=9) and control group (CG) (n=10). The balance exercise training program was administered for only the stable ankle of athletes in SG and only the unstable ankle of athletes in UG, twice a week and for a 4-week duration.
Ankle sprain is very common. In France, its daily incidence is estimated at 6000. It often causes pain, a temporary period of disability and can results in recurrence and chronic ankle instability. Therefore, an early management and follow up treatment is necessary. Now, functional treatment is clinically the treatment strategy of choice for ankle sprain. It is based on rest, ice, compression, elevation and can use a functional support (like an ankle brace). To evaluate gravity and improve management, a clinical assessment delayed between 4 and 5 days post injury is necessary.
A convenience sample of 20 participants, 18 years or older healthy individuals were recruited. Participants were excluded if they report being pregnant or being treated for a musculoskeletal injury. After explanation of the study and consent were obtained, each participant completed background information and the Cumberland Ankle Instability Tool (CAIT). Participants began by completing a 1 minute, 3mph walking gait assessment while unbraced, followed by a 2-minute, 6mph unbraced running assessment. Following the unbraced condition participants were randomly assigned into 1 of 4 conditions: [1] Active Ankle 329 Ankle Sleeve, [2] AS1Pro, [3] Eclipse 1, or [4] Eclipse 2. Participants placed an assigned brace on each ankle and then repeated the walking gait and running assessments. After this test the participants filled out a 10-item satisfaction questionnaire, and then were randomly assigned a second brace. The protocol was repeated until they have completed the walking, running, and satisfaction survey in all 4 brace conditions.
Question:Does kinesiotaping(KT) reduce oedema, pain, disability and increase range of joint motion on patients with acute ankle ligament injuries? Design:Two-group, randomised, controlled trial with blinded assessors. Participants:This study included 240 patients with acute ankle sprain.The patients were randomised using randomisation software and divided into two groups each comprising 120 patients. Intervention:Tape and splint were kept on the patients for 5 days. Outcome measures:The following parameters were evaluated before and after treatment: circumference measurement for severity of oedema(metatarsophalangeal joint,ankle circumference,5cm above the ankle,10cm above the ankle),visual analog scale(VAS) pain score,range of motion(ROM) for the ankle with goniometer and disability level via the Foot Function Index (FFI).
Background and purpose: Ankle inversion sprains are the commonest injuries of the lower extremities. Taping is routinely used after ankle sprain to support the joint and prevent reinjury. The effect of taping on functional performance in participants after ankle sprain has received little attention and generally with inconsistent findings. Besides, the perception of confidence and reassurance that may come with the ankle being taped might lead to the improvement of functional mobility performance. Therefore, the purpose of this study is to investigate the effects of rigid ankle tape and fibular tape on functional performance, self-efficacy and perceived stability, confidence and reassurance during functional tasks in participants with functional ankle instability. Methods: This study is a randomized controlled trial. Forty subjects with functional ankle instability will be recruited and randomly assigned into the rigid tape group and the fibular tape group. Participants will perform functional mobility tests with and without the ankle taped. The functional tests are: figure-8 hopping test, lateral hopping test, star excursion balance test (SEBT), single-leg stance and stair decent test. Secondary outcome measures were self-efficacy and perception measure. Statistics: Two-way analysis of variance with repeated measures was used to determine the effects of intervention on each dependent variable. Model effects were group, time (pre, post), and their interaction. Post hoc pairwise comparisons between pre and post in each group, and independent t test between groups, were used to document the difference. The statistical significance was set at p less than 0.05.
Acute lateral ankle sprains (ALAS) account for 4-5% of all Emergency Department visits in Denmark. Up to 2/3 of individuals with a history of lateral ankle sprain have prolonged symptoms for several years after their initial injury. Exercise therapy has proven to be a cost-effective rehabilitation in treating ALAS and in preventing re-injury. Injury-map© is an exercise app designed for treating different musculoskeletal problems including ALAS. The app has currently not been tested in a clinical trial with patients suffering from ALAS. This mixed method pilot cohort study aims to investigate the use and preliminary effect of an exercise program on a mobile device in patients with ALAS. The exercise program is designed to be completed within approximately 3 months. However, participants will be followed as long as they complete minimum 1 exercise session per week. If a participant is inactive for two weeks they will be considered completed and contacted for follow-up assessment.