View clinical trials related to Vestibular Disorder.
Filter by:Research Question: Will daily engagement in activities tailored to the evidence-based vestibular research result in improved attention and learning outcomes for children ages 6-9 years of age after an 8-week classroom-based intervention?
The goal of this within groups clinical trial is to determine the feasibility of a home-based vestibular balance therapy program for children with vestibular hypofunction. The main questions to be answered are: 1) what is the intervention's feasibility and 2) what is the intervention's preliminary impact on function? Participants will receive a comprehensive battery of vestibular function and balance tests, then an 8-week home-based intervention to be done 5 times/week with weekly checks from the physical therapist. Data will be used to design a larger clinical trial with a comparison group.
Falls during walking are common in people with Parkinson's Disease (PD). Fall risk can be attributed in part to the loss of automaticity in walking and an increased reliance on sensory cues, such as the input from the balance organ. In this project the investigators want to assess the effectiveness of rehabilitation training aiming to improve this vestibular input. The effects of a visual perturbation training in a virtual reality environment will be compared to conventional treadmill training.
The investigators have developed a self-administered rehabilitation tool that incrementally guides the user to increase head motion to mitigate motion sickness and enhance postural recovery following centrifugation or unilateral vestibular nerve deafferentation surgery.
Severe-to-profound hearing loss can have a major impact on patients´ lives leading to social isolation and decreased quality of life. Most commonly the hearing loss is caused by damage to the inner ear or cochlear nerve. Since the vestibular system which is central for our balance is located in the inner ear it can be suspected that patients with severe-to-profound hearing loss also might have an impaired vestibular function. This impairment may lead to a feeling of dizziness or vertigo. This study aims to investigate if patients with severe-to-profound hearing loss also have impaired vestibular function. The vestibular function will be measured with caloric irrigation, video head impulse test and vestibular evoked myogenic potential.
The aim of this study is to test whether when using the Vestibular Rehabilitation App older patients perform rehabilitation in a similar manner as when directly instructed by a clinician. A secondary goal is to evaluate usability and enjoyment of the app.
70 patients with peripheral vestibular disorders will be included in the study. Half of the subjects will receive vestibular rehabilitation exercises and the other half will receive additional cervical exercises. Results from the two groups will be compared.
Vestibular loss can co-occur with hearing loss causing dual sensory deficits. This project examines vestibular loss as a contributing factor to reading difficulties for children with hearing loss, where previously only the effects of hearing loss and subsequent language difficulties have been considered. These results are expected to influence the identification and habilitation of vestibular loss in children with hearing loss.
Meniere's disease is a progressive and debilitating inner ear disease characterised by vertigo and hearing loss. Several studies have linked Menierws disease with lower bone density and lower vitamin D levels. In the current prospective study definite Meniere's patients will be followed over a period of 2 year, during which repetitive measurements of bone density, vitamin D plasma levels, blood pressure as well as hearing and vestibular tests will be made. Results will be compared to healthy controls.
This study has three main goals (1) to explore the effects of electrical stimulations of the peripheral vestibular system(2) to assess the potential of this technique to rehabilitate basic vestibular functions in patients with severe bilateral vestibulopathy, and (3) to take advantage of the unprecedented experimental paradigm provided by the vestibular implant to increase our fundamental knowledge on the contribution of peripheral vestibular function to posture, gait and higher order sensory functions, mechanisms that remain poorly understood.