View clinical trials related to Vertigo.
Filter by:The goal of this clinical trial is to compare outcomes for standard vestibular rehabilitation home program to a digital vestibular rehabilitation home program in adults with dizziness related to mild traumatic brain injury (mTBI). The main question is whether participants who use the digital format of vestibular rehabilitation improve to a greater extent at discharge than those who use the standard format. Participants will undergo a customized vestibular rehabilitation home exercise program per standard of care, consisting of gaze stabilization, habituation, balance and gait exercises, and endurance training under the supervision of a physical therapist. Participants will complete the gaze stabilization and habituation exercises 2-3 times per day and the balance and gait exercises 1 time per day for 4 weeks. Participants will be tested before and after the 4-week intervention. At the initial session, the researcher will perform standard clinical tests of the inner ear balance system. Also at the initial session, the researcher will perform standard clinical tests of balance and walking and questionnaires about the impact of dizziness on daily activities. At the final session, the researcher will repeat the tests of balance and walking and questionnaires. Three months after completing the intervention participants will complete an online questionnaire about the impact of dizziness on daily activities.
The eye movement records and vestibular pulse examinations obtained from patients with dizziness can provide characteristic parameters and features of eye movements and vestibular reflexes. These can assist specialized physicians in diagnosing various forms of dizziness disorders. Through extensive analysis of databases, a disease prediction model can be established, significantly lowering the diagnostic barriers for non-specialist doctors, thereby enabling their diagnostic capabilities to approach that of experts.
Background: The vestibular system plays a crucial role in maintaining balance. Deficiencies in this system can result in instability and an increased risk of falls in older adults, posing a significant global health concern due to associated injuries. The Cawthorne and Cooksey program has demonstrated effectiveness in enhancing balance and reducing falls. This study aims to investigate the program's impact on balance, fear of falling, and dizziness in individuals aged 65 and older. Thirty-two older adults will be assigned to intervention and control groups. The intervention group will undergo a video-supported Cawthorne and Cooksey-based therapy, while the control group will receive counseling on fall prevention and healthy living through leaflets. The 4-week intervention will take place three times a week, including one face-to-face session and one via video. Pre- and post-assessments, along with a one-month follow-up, will be conducted.
Vertigo, dizziness, and imbalance are commonly reported by patients and technologists when near high-field strength magnets (>4 Tesla, T) used for magnetic resonance imaging (MRI) (1-5) Prior research from the investigators has established that the mechanism is likely a Lorentz force occurring in the inner ear, as a result of interactions with normal electrical currents in the inner ear and the strong static magnetic field of the MRI machine. The investigators have recently developed preliminary data to suggest that slower rates of entry into the magnetic field can greatly attenuate the sensations of vertigo. The explanation for this is that the rates of vestibular adaptation exceed that of the stimulus, allowed a reduction or elimination of the symptoms of vertigo. The aim of this study is to recruit individuals who are already getting an MRI scan as part of other research studies to randomize the rate of entry into and exit from the static magnetic field (i.e., before and after imaging is performed). The usual rate of entry is 20 seconds. This will be increased to one, two or three minutes. The investigators will record subjective sensations of dizziness and vertigo associated with the entry into the MRI.
The purpose of this study is to evaluate the sensitivity and specificity of the video head impulse test (vHIT) device, when implemented in the acute ED setting to identify acute ischemic stroke or central pathology vs peripheral vestibular dysfunction in patient's presenting with vertigo. This study will evaluate the implementation of the device, consistency with current diagnostic standards, unnecessary administration of antithrombolytics and will further study the reduction in hospital admissions and overall healthcare costs.
The aim of this study is to translate and introduce a cross-cultural adaptation of The Visual Vertigo Analogue Scale (VVAS). E. Dannenbaum et al developed the VVAS in order to diagnose visual vertigo (VV). VV is dizziness caused by visual stimuli such as scrolling through a computer screen or walking through crowds of people or supermarket aisles.
This study aims to validate a machine learning model that stratifies the risk of stroke in patients who present to the emergency department with dizziness or vertigo.
This study is a Double-blind, Randomized, Sham-controlled, Investigator-initiated trial. To explore the effectiveness of non-invasive inner ear electrical stimulation of the mastoid behind the ear in controlling auditory symptoms and dizziness in patients with Meniere's disease.
Benign paroxysmal positional vertigo (BPPV) is the most common peripheral vestibular disorder, and currently, manual repositioning techniques are often used for treatment. However, up to 30%-50% of patients may experience residual symptoms such as non-rotational dizziness, heaviness, instability, and emotional disturbances even after successful repositioning, which significantly impacts their daily functioning and quality of life. Electroacupuncture therapy has been proven to be an effective treatment for dizziness and has been applied to various vestibular disorder patients. However, the efficacy of electroacupuncture on the residual effects of successfully repositioned BPPV patients remains unclear. This study aims to explore the effectiveness of three regimens: electroacupuncture, betahistine in patients with residual symptoms after successful manual repositioning.
This study aims to investigate the effect of computerized vestibular function assessment and interactive training system, combined with cognitive/motor dual-task for the elderly with dizziness. The investigators will compare the movement abilities among older adults with different cognitive level, and further establish an assessment module that can evaluate participants' dual-task performance in both vestibular and cognitive tasks. Finally, leveraging the advantages of sensor detection technology and computerized feedback, an appropriate dual-task rehabilitation approach for vestibular function and cognition will be developed.