The Accuracy of Manual BPPV Diagnostics When Using VNG Goggles.
Benign Paroxysmal Positional VertigoBPPV5 moreThe aim is to investigate the accuracy of manual diagnostics of benign paroxysmal positional vertigo (BPPV) by comparing it to BPPV diagnostics in mechanical rotational chair (TRV chair). VNG (videonystagmography) goggles will be used in both scenarios. Furthermore, the investigators will examine the importance of angulation and velocity in relation to the diagnostic outcome.
Efficacy of a Transcranial Vibrating System for Minimizing Dizziness During Caloric Testing
Vestibular Function TestsDizzinessTesting for vestibular dysfunction often induces dizziness and nausea, to the point that testing cannot be completed. The investigators will use a "transcranial vibration system" that has shown promise in improving comfort during testing for vestibular disorders. The investigators hypothesize that with this "transcranial vibration system", the dizziness and nausea associated with caloric testing will be significantly reduced, while the clinical measures derived from the test will not be statistically significantly altered.
Conventional Vestibular Training Versus Immersive Virtual Reality- Based Vestibular in Multiple...
Multiple SclerosisVestibular Disease6 moreThe effectiveness of convectional vestibular training for balance and dizziness rehabilitation in people with multiple sclerosis has been recently demonstrated in a meta-analysis by this research team (doi: 10.3390/jcm9020590). Furthermore, non-immersive virtual reality-based environments seem to be useful for balance and gait rehabilitation in this population (doi: 10.1177/0269215518768084). However, nothing is known about the feasibility and effectiveness of immersive virtual reality-based rehabilitation in people with multiple sclerosis. The primary aim of this research is to determine the feasibility, safety and effectiveness of an immersive virtual reality-based vestibular training for dizziness, balance and fatigue rehabilitation, compared to conventional vestibular training.
The Effect of Pinhole Glasses on Vestibular Electrical Stimulation
VertigoPeripheralBalance is the ability to control and maintain the body's center of gravity within the support area. One of the important causes of imbalance is right or left sided unilateral vestibular hypofunction. Chronic vestibular hypofunction describes the loss of unilateral peripheral vestibular function lasting more than 3 months. VES is an important method for replacing the sensory afferents lost in the sudden onset of unilateral vestibular hypofunction and for the correct processing of information in the balance center. Regarding the mechanism of action of Vestibular Electrical Stimulation (VES), it is suggested that it generally affects the auditory system at various levels. Study aimed which was planned as a prospective, randomized, single-blind and single-center study, was conducted between 1 September 2022 and 1 July 2023, to Istanbul University, Istanbul Faculty of Medicine, Department of Physical Medicine and Rehabilitation, Vertigo Rehabilitation Outpatient Clinic with chronic vestibular hypofunction and the inclusion criteria. It was planned to include at least 100 matching patients. Participants who meet the inclusion criteria will be randomized into two groups by computer program after they are numbered according to the order of application. VES and exercise therapy will be applied by wearing pinhole glasses to 50 participants selected to Group 1 (G1-Experimental group). VES and exercise therapy without wearing pinhole glasses in 50 participants selected in Group 2 (G2-Control group) will be applied. Before and after the treatment, the severity of dizziness due to vestibular hypofunction, their emotional state, functionality and physical state and balance status will be evaluated. Dizziness severity will be evaluated with a visual analog scale, and emotional status, functionality and physical condition will be evaluated with the Dizziness Disability Inventory (DHI). Balance status will be determined by Tandem Gait Test, Timed Up and Go Test and Berg Balance Test. Evaluations will be made before treatment, at 1 month of treatment, and at 3 months of treatment (1 month after the end of treatment) by another study blind to treatment. With the data provided as a result of the research, it has contributed to both our country and the world literature, besides vestibular electrical stimulation, which can be used in the treatment of vestibular hypofunction, we will draw attention to the effectiveness of the use of pinhole glasses.
Clinical Trial of Vit D and Calcium for Recurrent BPPV
BPPVBenign Paroxysmal Positional Vertigo7 moreRandomized double blind placebo controlled trial of vitamin D supplements, with or without calcium supplementation, versus placebo in reduction of recurrences in BPPV.
Effect of Peripheral Vestibular Disease Location on Outcomes Following Home-based Virtual Reality...
Peripheral Vestibular DisorderBenign Paroxysmal Positional Vertigo5 moreThis parallel-group randomized controlled trial aims to determine if the location of the lesion(s) in the vestibular system (unilateral versus bilateral, lateral semi-circular canal versus otolith) impacts the effectiveness of adjunct take-home head-mounted display (HMD) virtual reality (VR) therapy in improving patient symptomatology. Fifty patients meeting inclusion criteria will be recruited from the principal investigator's neurotology clinic. Baseline symptomatology questionnaires will be completed, followed by random allocation to virtual reality and control groups. Vestibular rehabilitation and virtual reality protocols will be adhered to for 4 to 8 weeks, followed by symptomatology questionnaires. Data analysis will be conducted to answer the study's objectives.
Head Acupuncture Treat Residual Symptoms After Canalith Repositioning Procedure for BPPV
Benign Paroxysmal Positional VertigoBenign 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.
China Headache Registry Study
Headache DisordersPrimary9 moreIn the Chinese Headache and Vertigo Registration Study, patients aged 4-99 years with headache (primary headache and secondary headache such as migraine and tension type headache), vertigo (vertigo diseases such as vestibular migraine) and chronic pain (fibromyalgia and other diseases) were collected. The biomarkers, imaging features, right-to-left shunt of the heart (lung), genetic characteristics, treatment, and outcome (in relation to other diseases) of headache-related diseases were studied, and long-term follow-up was planned.
Translation of Dizziness Handicap Inventory Scale Into Local Languages of Pakistan
VertigoDizzinessThe aim of the present study is to translate the Dizziness Handicap Inventory Scale into Urdu, Pashto, Punjabi, Sindhi and Balochi languages. Along with validation of the translated versions by evaluating their validity and reliability in the people of Pakistan, speaking respective languages and suffering from vertigo and dizziness. No such study has been previously conducted in the Pakistan region which translates the scale and follows the proper cross-culture adaptation.
Establishment and Application of a New Imaging System for Otology Based on Ultra-high Resolution...
Hearing LossTinnitus1 moreTinnitus, hearing loss and vertigo are the three major diseases of otology, affecting hundreds of millions of people in our country, and are major health problems. Ear structures and lesions are deeply embedded in the bone, and CT is the preferred examination technique. The key structures of the ear are small and the lesions are hidden. Spiral CT is "not visible" and "undiagnosed" due to insufficient spatial resolution. The ultra-high-resolution CT independently developed by our team has a spatial resolution of 50 μm, which is 6 times higher than that of high-end spiral CT, and solves the problem of "not showing" ear diseases. However, with the transformation of imaging modes and the improvement of display capabilities, the imaging system of helical CT is no longer applicable. It is urgent to carry out systematic research to create matching imaging plans, imaging anatomy standards and disease assessment standards to solve the problem of "undiagnosed". problem. This project plans to build an adult and pediatric imaging solution based on ultra-high-resolution CT to optimize image quality and radiation dose; comprehensively evaluate conduction, sensory, and surgical-related fine structures of the ear, and establish a new 0.1mm-scale image anatomy atlas; A prospective study conducted by the center analyzes the hidden pathological changes of tinnitus, deafness and vertigo, evaluates the diagnostic efficacy of ultra-high-resolution CT for the above diseases, and establishes new diagnostic criteria for lesion detection, symptom correlation, and efficacy evaluation. This project will bring new changes to the practice of otology clinical diagnosis and treatment