View clinical trials related to Vestibular Disorder.
Filter by:More than 1/3 of adults in the United States seek medical attention for vestibular disorders and hearing loss; disorders that can triple one's fall risk and have a profound effect on one's participation in activities of daily living. Hearing loss has been shown to reduce balance performance and could be one modifiable risk factor for falls. Patients with vestibular hypofunction tend to avoid busy, hectic, visually complex, and loud environments because these environments provoke dizziness and imbalance. While the visual impact on balance is well known, less is known about the importance of sounds. In search for a possible mechanism to explain a relationship between hearing and balance control, some studies suggested that sounds may serve as an auditory anchor, providing spatial cues for balance, similar to vision. However, the majority of these studies tested healthy adults' response to sounds with blocked visuals. It is also possible that a relationship between hearing loss and balance problems is navigated via an undetected vestibular deficit. By understanding the role of auditory input in balance control, falls may be prevented in people with vestibular disorders and hearing loss. Therefore, there is a critical need for a systematic investigation of balance performance in response to simultaneous visual and auditory perturbations, similar to real-life situations. To answer this need, the investigators used recent advances in virtual reality technology and developed a Head Mounted Display (HMD) protocol of immersive environments, combining specific manipulations of visuals and sounds, including generated sounds (i.e., white noise) and real-world recorded sounds (e.g., a train approaching a station). This research will answer the following questions: (1) Are sounds used for balance and if yes, via what mechanism? (2) Do individuals with single-sided hearing loss have a balance problem even without any vestibular issues? (3) Are those with vestibular loss destabilized by sounds? To address these questions, the following specific aims will be investigated in individuals with unilateral peripheral vestibular hypofunction (n=45), individuals with single-sided deafness (n=45), and age-matched controls (n=45): Aim 1: Establish the role of generated and natural sounds in postural control in different visual environments; Aim 2: Determine the extent to which a static white noise can improve balance within a dynamic visual environment.
In this study it was aimed to investigate the effects of home treatment program based standard activity on dizziness, balance and daily life activity in patients with dizziness complaint originated from chronic unilateral peripheral vestibular disorder and compare to effects of exercise-based home rehabilitation program.
Since the early 2000s, vestibular rehabilitation has been proposed as a therapeutic tool to improve the balancing function and the various motor skills in children, in particular in children with hearing loss suffering from concomitant vestibular deficit. It has been demonstrated in adults with vestibular deficit that the fact of adding to the classic exercises on the control of balance per se and habituation, specific exercises of adaptation and substitution of the vestibulo-ocular reflex brought therapeutic benefit. These exercises, which are started in the presence of the physiotherapist and then continued by the patient himself at his home, aim to improve the stabilization of the gaze during head movements. In pediatrics, however, performing them is more difficult than conventional exercises, since their immediate interest is not well understood by the child, who may be reluctant to perform them. The present project aims to enrich the therapeutic offer by a pediatric rehabilitation method of eye stabilization sufficiently playful to win adherence to treatment, including in the absence of the physiotherapist when the child is at home.
. The main question is whether the vestibular system is affected by COPD. If there is an influence, the second question is what is the relationship between balance and vestibular interaction in COPD patients. A total of 10 COPD patients and 10 healthy adults will include the study. Respiratory functions, vestibular functions and postural stability of participants will be assessed. This research is planned to be carried out as a cross-sectional/descriptive research. It's planned as a pilot study. Comparisons between study and control groups will be made with independent samples t-test for parametric values and Mann Whitney U for non-parametric values.
In this research, the main purpose is to determine the effects of Circuit Training consisting of Structured Vestibular rehabilitation Program under the strict supervision of Neuro-Therapist versus Medicines and General (simple) Rehabilitation (only Home-based) in community-dwelling population of people diagnosed with Vestibular disorders. A booklet consisting of general instructions, simple vestibular exercises which are to be made a part of daily routine, specific diet plan and specific precautions to be taken by patients reporting with vertigo, oscillopsia and dizziness will also be provided to all the patients. This is a community service addition, added so that everyone in the society can have easy access to the instructions, will be cost effective, and will reduce their visits to the therapist.
Multiple sensory cues are typically generated by discrete events, and while they do not reach the cerebrum simultaneously, the brain can bind them temporally if they are interpreted as corresponding to a single event. The temporal binding of vestibular and non-vestibular sensory cues is poorly understood and has not been studied in detail, despite the fact that the vestibular system operates in an inherently multimodal environment. In this study, the researchers are investigating the physiology and pathophysiology of vestibular temporal binding by studying normal subjects, patients with peripheral and central vestibular dysfunction, and patients with vestibular and cochlear signals provided by prosthetic implants in the inner ear.
This study will utilise an assessor blinded, randomised controlled design to investigate the acceptability and feasibility of providing a novel tele-rehabilitation balance training system (HOLOBalance) for community dwelling older adults at risk for falls. Older adults (age 65-80) who meet the inclusion criteria (e.g. independently living, no neurological conditions) will be recruited from falls services and from the wider community (via AgeUK) and will be randomly allocated to receive either a prescribed exercise programme delivered by: 1) the HOLOBalance tele-rehabilitation system or 2) an exercise booklet (The OTAGO Home Exercise Programme). Participants will be required to perform a series of prescribed exercises each day (duration of up to 30 minutes per day) for the entirety of the 8-week exercise programme. These exercises will be provided via the HOLOBalance tele-rehabilitation system (intervention arm) or by written instructions (control arm). Primary objectives for this study are to assess recruitment rate, compliance with exercise programmes (exercise diaries) and drop-out rates within the intervention group and a control group undertaking standard practice, home based balance rehabilitation (the OTAGO Home Exercise Programme) to explore whether HOLOBalance is acceptable to participants. Furthermore, acceptability to older adults will also be investigated via exit interviews performed within the HOLOBalance tele-rehabilitation intervention arm. Feasibility will be assessed by documenting adverse events (and SAE's), adverse device effects (and SADE's), deviations from protocol and feedback from treating clinicians. Implementation issues such as technology break down, service delivery and usability issues will also be documented. Secondary outcomes to explore trends for effectiveness will investigate performance of both groups at baseline and after the 8 week intervention across a range of outcome measures associated with balance function and falls risk, cognitive function, Physical activity and social participation, and subjective report of mobility and balance.
This study was conducted to clarify the effect of vestibular education for autistic children on "sensory profile" and "postrotary nystagmus". In the study, the results of the two groups were compared through the treatment of sensory integration: the once who got the education and the once who did not. For this study, 26 autistic children were included who joined the " Çatalca District Unit of Disabled the Project of No Disabilities ", who was diagnosed with autism, who was 3-10 years (older than 36 months younger than 11 years). For each child, the analysis of the sensory integration and nystagmus was applied twice; at the beginning and at the end of the research. At the beginning of the research, the children were divided into two groups randomly drawn by lots. The first group was given the education of sensory integration with vestibular education and the second group was given the education of sensory integration without vestibular education. Both groups were educated for 10 weeks, 2 days a week with 40- minute sessions.
The purpose of this study is to assess the effectiveness of vestibular rehabilitation for an individual who has chronic central vestibular deficits due to cerebellar dysfunction. Due to the lack of treatment for chronic cerebellar dysfunction with Physical Therapy, the investigators hope to produce a protocol for chronic cerebellar dysfunction utilizing balance training, vestibular rehabilitation, or any other rehabilitation technique that may alleviate or eliminate symptoms.
Idiopathic sudden sensorineural hearing loss (ISSNHL) refers to idiopathic sensorineural hearing loss of at least 30 dB over at least three test frequencies occurring over a 72-hour period. Vertigo has been considered a risk factor of poor prognosis in patients with ISSNHL. However, the clinical outcome and development of vestibular function in these patients have not been reported yet. We'd like to conduct a study on the problem whether these patients resulted in a complete recovery of the peripheral vestibular functions or compensation of the central vestibular system. If the answer is the former one, these cases might be supportive evidence of regeneration of hair cells in vestibular disorders.