34 Clinical Trials for Various Conditions
This study is intended to be a retrospective chart review of patients with chronic ankle instability who have undergone a lateral ligament reconstructive procedure for ATFL repair (isolated or non-isolated) with suture tape augmentation. Patients that have been treated at any of the participating institutions that have undergone an ATFL reconstruction with Arthrex InternalBrace augmentation who have postoperative hospital or ASC records of safety and effectiveness as measured by adverse events, potential complications, and potential functional outcomes past the 10-week time point will be included.
The goal of this clinical trial is to analzye return to pre-injury activity level on study participants with lateral ankle instability undergoing a modified Bröstrom reconstruction procedure for repair of the ATFL. Study participants undergoing ATFL reconstructive procedure using the ARTELON FLEXBAND System as an augmentation device will be compared to study participants undergoing a standard modified Bröstrom procedure alone. Clinician reported safety and functional outcomes measures will be collected at baseline; and at 2-, 6-, 12-, 18 and 26-weeks and 1- and 2-years post-surgery.
Chronic ankle instability (CAI) is a common debilitating orthopedic condition that disrupts physical function and decreases quality of life. Not all CAI is the same. It can be mechanical ligamentous laxity, perceived disability often referred to as functional instability, or a combination of the two. However, clinicians and researchers most often combine all chronic ankle instability patients without considering these sub-groups, which may account for poor recovery and recurrence. The objective of this research is to determine functional and neurophysiological differences between sub-groups of CAI to allow for development of evidence-based rehabilitation which may improve patient outcomes. To accomplish this, the study will determine the differences among CAI sub-groups on performance of a traditional side-hop test and neurocognitive hop test, determine differences in neurophysiological response and motor control between CAI sub-groups during a lower limb and an ankle specific task, and determine the underlying neurophysiological effects of a 4-week neurocognitively enhanced balance training protocol among CAI subgroups. Time to complete each of the hop tests, cortical activation during the balance and force control tasks, and neurocognitive performance will be assessed to determine differences in performance and neurological function among subgroups of CAI
The purpose of the study is to investigate whether electrical stimulation to leg muscles and joints can help with balance in people with ankle instability. Participants will be asked to walk on a treadmill in a virtual reality cave. They will receive light electrical stimulation at the legs to improve your balance. The virtual reality image will sometimes shift in unexpected ways to challenge your balance. During the session, we will conduct a series of clinical assessments, including tests of functional performance and balance. Additionally, participants will be asked to fill out some questionnaires.
Chronic ankle instability (CAI) results in neuromuscular impairments compromising balance, lumbopelvic stability, and hip strength. Balance training has proven to be an effective intervention for individuals with CAI. Additionally, unilateral balance training for those with CAI has previously led to cross-education effects in which the untrained limb exhibited improved balance performance. However, the ability of unilateral balance training to improve contralateral hip strength and lumbopelvic stability in those with CAI is unknown. The purpose of this study was to determine the cross-education effects of balance training on hip strength and lumbopelvic stability in individuals with CAI. Thirty individuals with CAI will be randomized into control (CON) and balance (BAL) groups. Baseline testing include a unilateral hip bridge, hip strength, and balance tests of the uninvolved limb. For the unilateral hip bridge, the participant will hold a bridge through the test limb for maximum time. Isometric hip strength will be measured for external rotation (ER), extension (EXT), and abduction (ABD) using a handheld dynamometer. The star excursion balance test (SEBT) requires participants to maintain a single-leg stance while reaching for maximum distance with the opposite leg in three directions: anterior (SEBT-ANT), posterolateral (SEBT-PL), and posteromedial (SEBT-PM). The BAL group will participate in a progressive balance training program three times a week for eight weeks for the involved limb, whereas CON will not. All baseline measures will be reassessed at the end of the 8 weeks. Separate 2-way repeated measures ANOVAs will analyze the effects of group and time on each outcome. Additionally, each group's mean changes from baseline to post-intervention will be assessed with Cohen's d effect sizes. Statistical significance is set a priori at P\<0.05.
This study will determine the relationship of one's self-reported awareness of their body and their ankle motor control for people with chronic ankle instability. This study will further identify the correlates between certain psychological characteristics (i.e., fear and anxiety) and autonomic nervous system arousal (i.e., heart rate variability). Furthermore, this study will elucidate the potential impact of a brief hypnosis practice on balance performance.
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.
People with chronic ankle instability (CAI) demonstrate altered gait or walking mechanics which cause people to walk on the outside of their foot and increases the risk of additional ankle sprains, abnormal cartilage strain, and early joint degeneration. Evidence indicates that common treatments for CAI do not impact gait, leaving unresolved impairments that can lead to lifelong disability. Recent lab-based gait retraining with visual and auditory feedback has immediately improved walking mechanics. However, real-world training is hypothesized to generate long-term changes by incorporating short, frequent training sessions over a variety of surfaces. These are key training parameters to produce lasting change. Pilot data using real-world vibration feedback (RW-VF) suggest that a single session immediately improves walking mechanics with changes lasting for up to 5 minutes. Despite promising initial results, there remains a critical need to determine the impact of multiple RW-VF sessions as an initial step to developing a protocol capable of long-term improvements. The purpose of this proposal is to determine the extent to which 2-weeks of RW-VF restores gait biomechanics in those with CAI. Twenty people with CAI will be enrolled and complete a two-week gait retraining protocol with vibration feedback. Walking mechanics before, immediately after, and 1 week and 4 weeks following the training will be compared. These contributions can be significant as positive results will support a paradigm shift in treatments for people with CAI and lay the foundation for large scale clinical trials aimed at optimizing long term gains. The outcomes of future research have the potential to advance evidenced based rehabilitation interventions not only for people with CAI but also for people who have sustained a variety of musculoskeletal injuries as there is strong evidence that other lower extremity pathologies cause lifelong limitations, including changes in walking mechanics which lead to degenerative changes to other joints.
The ROCKY REHAB trial will provide a pragmatic approach to evaluate if incorporating a rocky, uneven terrain treadmill into the proprioceptive rehabilitation received during physical therapy can improve outcomes and reduce reinjury rates in patients with ankle instability.
The overall objective of this study is to examine the effects of a 6-week foot-intensive rehabilitation (FIRE) program on lateral ankle sprain (LAS) re-injury rates, CAI symptoms, sensorimotor function, and self-reported disability in CAI patients.
Chronic ankle instability is associated with changes in the nervous system that amount to increased difficulty in activating the stabilizing muscles of the ankle. Neuromuscular Electrical Stimulation involves using electricity to activate those muscles in bursts, and is commonly used to improve muscle function in those with ACL injury. This study will provide 5 treatments over 2 weeks in patients with Chronic Ankle Instability and determine if Electrical Stimulation can change neural excitability, balance, neuromuscular control, and perceived function in these individuals.
Although altered biomechanics has been well documented as an impairment associated with chronic ankle instability (CAI), effective interventions targeting biomechanics with long-term outcomes measuring patient-reported outcomes (PROs) are absent. Evidence suggests that external focus of attention (ExFOCUS), internal focus of attention (InFOCUS) feedback, and auditory feedback during movement training can alter biomechanics in other patient populations, with ExFOCUS and auditory enhancing retention of learned biomechanics. Therefore, this randomized controlled trial will determine if a 4-week (12 session) impairment-based rehabilitation program that includes feedback (ExFOCUS or InFOCUS or Auditory) can (1) decrease ankle inversion kinematics and lateral plantar pressure during walking and (2) improve self-reported function.
Individuals with chronic ankle instability (CAI) have demonstrated altered gait patterns. Gait training may be necessary to address these alterations as protocols focusing solely on strength or balance have not been shown to impact walking gait. Biofeedback about the foot position during walking may help improve gait biomechanics. The purpose is to determine whether a 4-week rehabilitation program that includes biofeedback has beneficial effects on self-reported function and ankle gait kinematics compared to rehabilitation alone in people with CAI. The design is a single-blinded randomized controlled trial. Participants will complete baseline self-reported function questionnaires and walking gait trials and then be randomized to complete 4- weeks of supervised rehabilitation with or without audiovisual biofeedback. Follow up emails will ask for participant information about ankle health and to complete questionnaires about their ankle for 6 months and 12 months after completing rehabilitation.
A randomized controlled trial investigating the effects of a 4-week ankle rehabilitation program on high school athletes with chronic ankle instability.
Our purpose is to examine the combined effects of thrust mobilization of the ankle joints in conjunction with a six-week rehabilitation program on functional performance in subjects reporting chronic ankle instability (CAI).
Lateral ankle sprains (LAS) and chronic ankle instability (CAI) are common musculoskeletal injuries that are a result of inversion injury during sport. The midfoot is frequently involved during inversion injury, is often overlooked during clinical examination, and maybe contributory to the development of CAI. The purpose of this study is to investigate multisegmented foot motion using a motion capture system, clinical joint physiological and accessory motion, and morphologic foot measurements in recreationally active men and women with and without a history of lateral ankle sprains and chronic ankle instability. Additionally, the effects of a joint mobilization intervention in patients with diminished multisegmented foot motion and intrinsic foot strengthening in healthy individuals will be investigated.
This study is to show that the investigators believe the Modified Brostrӧm Procedure (MBP) can be completed without a routine ankle arthroscopy. Routine ankle arthroscopy, if determined not to be necessary in all cases, is a waste of resources in terms of operating room, surgeon, and staff time as well causing an increase in hospital financial expenses. Most importantly, this procedure is morbid. Ankle arthroscopy forces a patient's foot into distraction for up to one hour, exposes the patient to potentially longer anesthesia exposure that is unnecessary, increases infectious risks, and requires exposure at the portal sites near superficial nerves.
This study seeks to determine the effectiveness of Strain Counterstrain in the treatment of chronic ankle instability.
The purpose of this study is to examine the effects of a gentle pressure movement performed at the ankle by a physical therapist on muscle function and ankle motion in individuals who frequently twist (sprain) their ankle.
Lateral ankle sprain (LAS) is one of the most common injuries in sports. There is a unique style of socks that have become popular in Japan among athletes that could also improve postural control. The purpose of the study is to determine the effectiveness of five-toed socks on dynamic postural control in individuals with and without chronic ankle instability.
The aim of this study is to determine the effect of a balance training intervention on the change in hyper-reactivity to unloading reaction, ankle joint laxity, ankle joint proprioception and evertor muscle weakness in individuals with functional ankle instability (FAI) using quantitative biomechanical and neuromuscular measurements. We hypothesize that experimental FAI group will demonstrate a significant decline in unloading reaction following balance training while FAI control group will not show a significant decline in unloading reaction without training. We further hypothesize that experimental FAI group will demonstrate a significant improvement in the FAI score after the balance training measured by Ankle Instability questionnaire. Following balance training, there will be a significant correlation between the change in FAI score and change in the unloading reaction in the experimental group.
The overall aim of this project is to determine the effect of a tibiofibular joint manipulation on the neuromuscular response of the fibularis longus and soleus muscles in individuals with chronic ankle instability. Another aim of this study is to determine the long term effects of a tibiofibular joint manipulation on range of motion and self-reported function. We hypothesize that a manipulation applied at the distal tibiofibular joint will result in greater muscle activation, improved functional dorsiflexion ROM, and increases in FAAM scores compared to a tibiofibular joint manipulation applied at the proximal joint. We further hypothesize that both distal and proximal tibiofibular joint manipulations will result in greater muscle activation, improved functional dorsiflexion ROM, and increases in FAAM scores than no treatment at all.
The purpose of this investigation is to determine the effects of chronic ankle instability on cervical spine and knee proprioception as measured using joint position sense to investigate whether correlation can be drawn between the two.
Lateral ankle ligament stabilization procedures are well described in the orthopaedic literature. Although success rates are high, the incidence of recurrent instability is well documented. In addition, with standard rehabilitation protocols, the timeline to return to sport and functional activities may be prolonged. The InternalBrace Ligament Augmentation Repair is a safe and reproducible technique using FiberTape® and BioComposite SwiveLock® as an augmentation to a Brostrom procedure. The InternalBrace Ligament Augmentation repair consists of a FiberTape bridge between two Knotless Swivelock anchors providing a protective reinforcement and allows the surgeon to repair lateral or medial ankle instability and the pain associated with it. This type of repair can be utilized in acute and chronic ankle sprains.
The purpose of this study is to determine the effect of 3 types of sensory-targeted rehabilitation interventions on subjective and objective measures of function for those with chronic ankle instability. The investigators hypothesize that subjective and objective measures of function including self-reported disability, balance, and range of motion will improve after 2-weeks of sensory-targeted interventions.
The purpose of this clinical trial is to evaluate whether the Hyperarch Fascia Training (HFT) program can reduce ankle pain and improve jump performance in active adults aged 20-45 with a history of ankle sprains. Participants will be randomly assigned to either an HFT intervention group or a control group, maintaining regular activity. Over 12 weeks, participants will complete remote training sessions, track jump performance using the "My Jump Lab" app, and complete ankle pain and stability questionnaires. All activities and assessments will be conducted remotely with guidance from certified coaches.
The purpose of this research study is to examine the efficacy of non-invasive brain stimulation in addition to balance exercise for chronic ankle instability (CAI), a condition that develops following an initial ankle sprain, usually because of loose or unstable ankle joints.
ABSTRACT: Injury associated with sport and recreation is a leading reason for physical activity cessation, which is linked with significant long-term negative consequences. Lateral ankle sprains are the most common injuries associated with physical activity and at least 40% of individuals who sprain their ankle will go on to develop chronic ankle instability (CAI), a multifaceted condition linked with life-long residual symptoms and post-traumatic ankle osteoarthritis. Our long term goal is to develop intervention strategies to decrease disability associated with acute and chronic ankle injury and prevent posttraumatic ankle osteoarthritis. Conventional rehabilitation strategies, are only moderately successful because they ignore the full spectrum of residual symptoms associated with CAI. Manual therapies such as ankle joint mobilizations and plantar massage target sensory pathways not addressed by conventional treatments and have been shown to improve patient-reported outcomes, dorsiflexion range of motion, and postural control in CAI patients. While these early results are promising, the underlying neuromuscular mechanisms of these manual therapies remain unknown. Therefore the objective of this R21 proposal is to determine the neuromuscular mechanisms underlying the improvements observed following independent ankle joint mobilization and plantar massage interventions in CAI patients. To comprehensively evaluate the neuromuscular mechanisms of the experimental treatments, baseline assessments of peripheral (ankle joint proprioception, light-touch detection thresholds, spinal (H-Reflex of the soleus and fibularis longus), and supraspinal mechanisms (cortical activation, cortical excitability, and cortical mapping, sensory organization) will be assessed. Participants will then be randomly assigned to receive ankle joint mobilizations (n=20), plantar massage (n=20), or a control intervention (n=20) which will consist of 6, 5-minute treatments over 2-weeks. Post-intervention assessments will be completed within 48-hours of the final treatment session. Separate ANOVAs will assess the effects of treatment group (ankle joint mobilization, plantar massage, control) and time (baseline, post-treatment) on peripheral, spinal, and supraspinal neuromuscular mechanisms in CAI participants. Associations among neuromuscular mechanisms and secondary measures (biomechanics and postural control) will also be assessed. The results of this investigation will elucidate multifaceted mechanisms of novel and effective manual therapies (ankle joint mobilizations and plantar massage) in those with CAI.
Chronic Ankle Instability (CAI) is a health condition that results in repeated ankle sprains and other residual impairments. CAI has been linked to many different causative factors including sensory and motor deficits that affect the global function of the sensorimotor system as well as the patient. Over the past 20 years, strong evidence has been generated to support balance training as an effective intervention strategy in the CAI population. Unfortunately, most investigations have focused solely on maximizing motor output through balance training, while ignoring the full spectrum of sensorimotor dysfunction associated with CAI. There may be advantageous sensory-targeted interventions that augment the effects of balance training and lead to greater enhancements of functional outcomes for CAI. However, this possibility has not been systematically explored. Sensory-targeted ankle rehabilitation strategies (STARS), such as joint mobilization and plantar massage have resulted in improved sensorimotor function in those with CAI. However, only a single STARS (i.e. stochastic resonance) has been investigated in combination with balance training. While the combined effects were greater than those of balance training alone, stochastic resonance requires relatively expensive equipment that is not commercially available. Thus, the purpose of this investigation is to test the hypothesis that combining low cost STARS (e.g. plantar massage and joint mobilizations) with balance training will result in greater sensorimotor and functional improvements in those with CAI than balance training alone.
The objective of this study is to determine if a clinical measure can be used effectively to predict ankle injury in high school and collegiate athletes across a variety of sports. Hypothesis: For each ankle injury category (lateral ankle sprain, medial ankle sprain, syndesmosis ankle sprain, Achilles rupture, fracture) participants that suffer these injuries will have a significantly lower SEBT normalized composite score and FMS composite score compared to those participants that do not suffer the injury Hypothesis #1b: Similar to a previous study examining high school basketball players22, using receiver operator characteristic (ROC) curves, we will be able to calculate likelihood ratios, odds ratios, sensitivity and specificity and determine the ideal cut-off point of the SEBT normalized composite score and FMS composite score that will be able to predict the risk of each ankle injury category (lateral ankle sprain, medial ankle sprain, syndesmosis ankle sprain, Achilles rupture, fracture). Athletes from identified sites will perform measures of the star excursion balance test (SEBT) and the Functional Movement Screen FMS before the first day of practice. During the competition season, the number of practice and competition person exposures, as well as the number of ankle injuries, will be recorded. The rate of ankle injuries/exposure will be calculated and compared with the pre-season SEBT scores to create a simple and a complex prediction model for risk of ankle injury