View clinical trials related to Bilateral Vestibulopathy.
Filter by:In this study the researcher observe how vertigo symptoms change during two months of treatment with the natural medicinal product Vertigoheel©. Adult patients suffering from vertigo symptoms can participate if they are diagnosed with bilateral vestibulopathy (BVP) or functional dizziness (FD) and assigned to Vertigoheel treatment. Participating patients receive an examination at study start and after 2 months of Vertigoheel treatment. The study focuses on patient reported outcomes assessed by questionnaires. Vertigo symptoms are assessed by the Dizziness Handicap Inventory questionnaire. Patients' quality of life is assessed by a questionnaire. Body sway is assessed by static posturography. FD patients are additionally tested for depressive and anxiety symptoms by questionnaires. BVP patients are additionally tested for vestibular function by video head impulse test and caloric testing. Adverse events and other observations related to safety (physical examination and vital signs) are evaluated. Vertigo is a common symptom with significant adverse effects on patients' quality of life. Regardless of the exact cause of vertigo attacks, it is important to reduce the frequency, intensity, and duration of vertigo attacks with an effective medication that has no or minimal adverse effect. Vertigoheel®, a natural medicinal product consisting of four ponderable active ingredients, is approved in Germany as treatment for vertigo of various origins. However, no systematic data are available for Vertigoheel® regarding patient-reported outcomes in BVP and FD as the most accepted endpoint in vertigo studies.
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.
Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no widely available, adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to bilateral vestibular hypofunction. Prior research has demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular implant can partially restore vestibular reflexes that normally maintain steady posture and vision; improve performance on objective measures of postural stability and gait; and improve patient-reported disability and health-related quality of life. This single-arm open-label study extends that research to evaluate outcomes for up to fifteen older adults (age 65-90 years at time of enrollment) with ototoxic or non-ototoxic bilateral vestibular hypofunction.
The purpose of this study is to determine the etiological factors that constitute bilateral vestibular hypofunction and to investigate the effect of vestibular rehabilitation in these patients. The Caloric test and Video Head Impulse test were applied to evaluate the vestibular hypofunction picture of the patients who applied to Clinic with complaints of vertigo, dizziness and imbalance. Among these patients with BVH, those with vestibular symptoms, imbalance complaints and limited daily living activities were included in rehabilitation. In order to investigate the effectiveness of rehabilitation, oculomotor functions were evaluated using Simulation Of Vestibulo-ocular Reflex Exercises (SVORE) System, balance assessment was done with timed balance tests and quality of life assessment was performed with Dizziness Handicap Inventory.
Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no widely available, adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to bilateral vestibular hypofunction. Prior research focused on ototoxic cases has demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular implant can partially restore vestibular reflexes that normally maintain steady posture and vision; improve performance on objective measures of postural stability and gait; and improve patient-reported disability and health-related quality of life. This single-arm open-label study extends that research to evaluate outcomes for up to 8 individuals with non-ototoxic bilateral vestibular hypofunction, yielding a total of fifteen adults (age 22-90 years at time of enrollment) divided as equally as possible between ototoxic and non-ototoxic cases.
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.
In the VertiGO! trial 13 participants with bilateral vestibulopathy (BV) and severe sensory neural hearing loss in the ear to be implanted will receive a combined cochlear (CI) and vestibular implant (VI), capable of stimulating both the cochlear and vestibular nerves (CVI). The participants will make use of this combined stimulation during 3 weeks of prolonged use under supervision in a hospital environment. This trial will serve as a proof-of-concept for restoring vestibular function in patients with BV, an as-of-yet untreatable disorder causing severe impairment and discomfort. The aims of this trial are to investigate efficacy and safety of prolonged vestibular stimulation, to identify the influence of different stimulation algorithms, to assess the feasibility of the combined VI/CI device, to develop a VI rehabilitation program and to further build on the fundamental knowledge of vestibular organ stimulation while also taking into account the patient perspective.
The goal of this study is to improve the vestibular implant's ability to reduce the vestibular-dependent perceptual, postural, and visual symptoms that affect patients with severe peripheral vestibular damage. The long-term research plan is focused on exploring the three questions which must be answered to assess the clinical utility of a vestibular implant (VI) in vestibulopathic patients - i) how can information transfer from the VI sensors to the brain be optimized; ii) how does the three-dimensional angular velocity information provided by the VI interact in the brain with other sensorimotor (vision, otolith, efferent) signals; and iii) how effectively does the VI alleviate the behavioral deficits and subjective symptoms experienced by patients with severe vestibular damage. The current study will be used to focus on two key subsets of these questions. Over one year, the investigators will study approximately 5 patients who have severe bilateral vestibular damage and functioning VI's, which will focus on aim 1: how the angular velocity information sensed by the VI can be optimally transferred to the brain; and aim 2: how effectively the VI improves the clinical status of vestibulopathic patients when they receive acute and sub-acute (3 days) motion-modulated stimulation. In sum, the investigators aim to improve the efficacy of the VI in human subjects by developing new knowledge about how the brain processes motion cues provided by the VI and correlating this information with behavioral outcomes.
Chronic cough is a frequent cause of Pneumology consultations. CANVAS syndrome (Cerebellar Ataxia with Neuropathy and bilateral Vestibular Areflexia Syndrome) is a progressive and disabling neurological disease that very frequently occurs with chronic cough. This cough invariably appears as a prodromal symptom that precedes neurological symptoms. The biallelic expansion of AAGGG in RFC1, a causal mutation in CANVAS syndrome, appears with high frequency in the general population. Objectives: Main: To determine the presence of biallelic expansion of AAGGG in RFC1 in patients with chronic cough, regardless of the presence of neurological symptoms. Secondary: Describe the phenotypic, functional and inflammatory characteristics of these patients. and Know the relationship between gastroesophageal reflux and chronic cough in patients with CANVAS. Method: A descriptive cross-sectional pilot study including 50 non-smoking patients between the ages of 30 and 99 years with chronic and / or refractory cough as the only manifestation or associated with gastroesophageal reflux. All patients will undergo the pertinent studies for the diagnosis of chronic cough, those who meet criteria for suspicion of gastroesophageal reflux will be requested an esophageal phmetry and esophageal manometry. Peripheral venous blood sample will be obtained for subsequent genetic analysis. Vibration sensitivity will be studied in all patients regardless of the presence of mutation. Those with alterations in vibratory sensitivity or mutations in RFC1 will be referred to the Neurology Service for a complementary neurological evaluation. For the molecular study of the DNA sample of the patients, two techniques will be used: standard Polymerase chain reaction amplification with primers flanking the intron 2 fragment of the RFC1 gene and amplification using Repeated Primed Polymerase chain reaction in 3 independent reactions.
The world population has been growing and aging dramatically, with a rising prevalence of dementia. Worldwide, around 50 million people have dementia, with 10 million new cases added every year. Despite the epidemic scale of dementia, until now no cure or disease-modifying therapy has been identified. Therefore, the World Health Organization (WHO) has recognized dementia as a public health priority. Several large studies have demonstrated that hearing impairment is associated with a greater risk of cognitive impairment. Hearing rehabilitation could potentially provide a disease-modifying therapy to delay cognitive decline. Although auditory behavioral research has not yet revealed a reliable indicator of early cognitive impairment, cortical-evoked auditory potentials (CAEP) have shown promising evidence as a non-invasive way to identify early-stage cognitive impairment. The peripheral vestibular apparatus is located in the inner ear and codes rotation and translation of the head to preserve a stable view. Increasing evidence suggests that bilateral vestibular function loss, also known as bilateral vestibulopathy (BVP), leads to hippocampal atrophy and reduced spatial cognitive skills, as well as structural and functional alterations in parieto-insular and parieto-temporal regions. Many studies have demonstrated that vestibular function declines with age. Vestibular dysfunction can be linked to reduced topographical orientation and memory and has been suggested as a risk factor to AD, due to increased risk of falling and deficits in activities of daily life (ADL). Our first aim is to study the effect of SNHL and vestibular decline on CAEP, spatial and non-spatial cognitive functioning and trajectories in cognitively healthy older subjects, as well as patients with mild cognitive impairment (MCI) and AD. Our second aim is to study if MRI brain volume changes can be observed in the hippocampus, entorhinal cortex, and auditory and vestibular key regions in these populations and correlate with CAEP and cognitive functioning. The expected outcome is important to society because it will provide data from a cognitive assessment protocol adapted for a potentially hearing-impaired population, objective outcome measures (incl. CAEP and MRI brain volume changes) to identify older subjects with SNHL and BVP at risk for cognitive decline, and will support screening and interventional studies to assess the impact of rehabilitation on slowing down cognitive decline.