View clinical trials related to Vertigo.
Filter by:Acute vertigo accounts for around 4% of emergency room visits. Triggered episodic vestibular syndrome is the most commonly encountered symptomatic context. BPPV (Benign Paroxysmal Positional Vertigo) is the main cause, representing 40-50% of the vertigo cases assessed in emergency departments. It results from the migration of calcium carbonate particles (otoliths), from the sticky membrane of the utricle and saccule of the inner ear, to one of the 3 semicircular canals (SCC), posterior, horizontal or lateral, and anterior. It occurs idiopathically with head movement, through degeneration, or following head trauma. The otolith impulse causes the endolymph to move, temporarily and aberrantly displacing the cup of the affected canal, resulting in the transmission of erroneous information to the vestibular nuclei. This leads to the sudden onset of vertigo and eye deviation, resulting in transient nystagmus. The location of the displaced otoliths determines the variant of BPPV: BPPV of the posterior semicircular canal is the most common (around 65% of BPPVs), followed by BPPV of the horizontal canal, while BPPV of the anterior canal is rare, as it resolves spontaneously and rapidly. Although a benign condition, BPPV leads 9 times out of 10 to a medical consultation, interruption of daily activities, or sick leave. Untreated, it will usually recur, and can impact on patients' quality of life.
This pilot study is perfomed to validate and document faisability of the use of Frenzel lens and the use of a diagnostic algorithm for the assessment of a special sign (nystagmus) observe in the eyes of patients consulting in the emergency department (ED) for an acute episode of vertigo/dizziness/imbalance.
ED-VeRT will enroll up to 125 adult emergency department (ED) patients presenting with a chief complaint of dizziness or vertigo to collect longitudinal outcomes over 3 months of follow-up. This will include 50 patients who were evaluated by an ED physical therapist (ie, vestibular rehabilitation) during their ED visit and 50 patients who received usual care. The aims of this trial are to: (1) obtain initial estimates of participant recruitment and retention, intra-cluster correlation, and between-group outcome differences that will inform sample size calculation for a future randomized clinical trial, and (2) assess feasibility and fidelity of a clinical classification protocol for undifferentiated dizziness among patients receiving ED vestibular rehabilitation.
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.
This study seeks to gather data on the effect of a device, the OtoBand, in participants who have reported symptoms of vertigo, compared to the effect of using one of two sham devices. The study is designed to be conducted remotely using video conferencing between representatives of the manufacturer of the Otoband and participants. In order to comply with requirements for non-essential contact due to the Covid-19 pandemic there will be no person to person contact in the study.
Both dizziness and neck pain are common complaints in the Norwegian population. The cervical spine has a highly developed proprioceptive system, which is involved in head and gaze stabilization as well as postural control. Thus, it has been argued that dizziness and/or unsteadiness can occur due to loss of or inadequate stimulation of neck receptors in patients with neck pain. Still, the notion of dizziness due to cervical dysfunction is a controversial topic. However, clinicians report that patients referred for dizziness often complain of neck pain, and vice versa. This study is a multi-center study including patients referred to 1) a neuro-otologic clinic due to dizziness and 2) a rehabilitation clinic due to neck pain. Both clinics are tertiary care university clinics. The study explores the prevalence, severity and spectrum of symptoms as well as clinical findings in patients with various combinations of dizziness and neck pain. The aim is to see if these patient groups differ from each other in terms of clinical characteristics, symptoms and quality of life. Additionally, the aim is to examine if there is a relationship between neck dysfunction and dizziness, and last, if the symptoms persist longer in patients with both dizziness and neck pain.
Objective: To investigate the effect of vestibular rehabilitation exercises supported with virtual reality using virtual glasses technology on dizziness, static and dynamic balance, functional mobility, fear of falling, anxiety and depression in the short term (3 weeks) in the elderly with dizziness.
Brief Summary: The purpose of the present study is to examine the effects of a Group based intervention consisting of vestibular rehabilitation (VR) combined with cognitive behavioral therapy (CBT) in patients with long--lasting vestibular dizziness. The study also aims to describe sociodemographic, physical and psychological characteristics in the patients, and to examine prognostic factors related to functional status and disability following participation in the intervention. Prior to the RCT, a feasibility study will be conducted to examine the feasibility of the study protocol.
Benign Paroxysmal Positional Vertigo (BPPV) is one of the most common causes of vertigo and the most common vestibular disorder of the inner ear. BPPV is the result of small free-floating particles (canaliths) in the posterior semicircular canals where they aggravate the sensory apparatus and induce sudden and severe attacks of vertigo when the head is turned into certain positions. The treatment of BPPV was revolutionized by the introduction of the Epley maneuver, a sequence of head movements that use gravity to reposition the canaliths within the inner ear. The Epley maneuver provides prompt relief from vertigo in approximately 80% of patients. The innovation, the Vertigone goggle, provides both physician and patient with visual feedback to guide them through an accurate Epley maneuver. This changes the current treatment paradigm for BPPV, greatly increasing the availability of the maneuver to non-specialist physicians, nurse practitioners, physician's assistants and physical therapists. The device is designed so that the patient with recurrent vertigo can use the goggle to treat BPPV at home. The goggle is currently a pre-market prototype. The hypothesis for the study is that accuracy in the performance of the Epley maneuver correlates with improved clinical resolution of vertigo in BPPV patients. If the hypothesis is true, then there is a clear case for the utility of the visual feedback provided by the VertiGONE goggle in performing the maneuver.