View clinical trials related to Vertigo.
Filter by:Chronic dizziness,or persistent positional perceptual dizziness (PPPS) is a common condition that results in impaired quality of life and work ability of those affected. Vestibular Rehabilitation (VR) is an evidence-based and recommended treatment for chronic dizziness. The treatment involves training in specific exercises that challenge the balance system and eventually improve dizziness. The main challenge with this treatment is that it is usually best provided with individual follow-up of therapists trained in the method. Limited resources and the lack of dissemination of this knowledge mean that only a minority of patients receive adequate treatment. An internet-based self-help program in vestibular rehabilitation has been developed in Norwegian with demonstration and instructions of exercises. The program has six lessons, together lasting for six weeks. Patients are given the opportunity to exercise at home, without the use of treatment resources and without spending time traveling to the treatment site. Patients will have access through their general practitioner or health institution at no extra cost. If it turns out that the program works according to the intention, the investigators will be able to offer VR to a large number of PPPS patients who previously would not receive treatment for their condition. The aim of the pilot study is to find out if the internet program for PPPS works as intended and evaluate incoming data and make changes to the program. In addition, the investigators will gain experience in using the program before designing a randomized clinical trial (RCT). The aim of such an RCT would be to compare this internet based treatment to traditional treatment.
Patients hospitalized at the rehabilitation department at the hospital will fill a questionnaire regarding dizziness and ear diseases, and the Dizziness Handicap Inventory, and then will be examined by an ENT physician, followed by a video Head Impulse Test (vHIT) study.
Background and Rationale: Benign paroxysmal positional vertigo (BPPV) is the most common cause of vertigo, affecting 2.4% of the general population and 30% of those over 70 years old. The main symptom is the perceived sensation of movement of the surrounding or self, without actual such movement, triggered by changes in position (positional vertigo). It can be dangerous as repetitive symptoms can lead to falls and depression, particularly in the elderly. Additionally, at least half of those with initial symptoms of BPPV will have ongoing symptoms if not treated. The Epley maneuver is a particle-repositioning maneuver that is used to treat posterior semicircular canal BPPV, the most common type of BPPV, after a diagnosis has been made on physical examination. In-office administration of the Epley maneuver by a specialist yields a 90% success rate at treating the condition; however, at-home administration is much less successful. In a previous paper we demonstrated the development and face validation of a Virtual Reality Epley Maneuver System (VREMS) for performing the Epley maneuver correctly. In this study we aim to apply VREMS treatment in patients who have been diagnosed with BPPV. Research Question and Objectives: PICO (Patient/Population Intervention Compare Outcome): In adult patients diagnosed with posterior canal BPPV by a specialist, does VREMS, as compared to self-performed Epley maneuver using an instructional handout (IH) result in improved or resolved symptoms? Methods: Vertigo patients referred to the Neurovestibular Clinic will be evaluated by an Ear, Nose and Throat (ENT) specialist. Those who are diagnosed with posterior canal BPPV after history and physical examination including the Dix-Hallpike test will be approached to be recruited into the study. Patients who consent to participating in the study will be allocated to either the VREMS cohort or the control cohort. Those in the control cohort will be provided an instructional handout (IH) to help them perform the Epley maneuver. Patients in the VREMS cohort will be provided with the VREMS device, which will help guide them through the Epley maneuver in a virtual reality environment. All participants will be asked to rate the severity of their symptoms before undergoing the Epley maneuver. Subsequently, patients will be supervised as they perform the Epley maneuver - VREMS assisted or based on reading the IH. In both groups, once the patient has performed the Epley maneuver (whether with VREMS assistance or with the IH), they will be asked to rate their symptom severity after undergoing the Epley maneuver. All patients will also be asked to complete the NASA Task Load Index (NASA-TLX) to gauge their perceived mental workload. They will also be given an opportunity to give free-text feedback. For any patient with residual BPPV symptoms following Epley maneuver with VREMS or IH, the ENT specialist/vestibular physiotherapist will perform the Epley maneuver to ensure resolution of symptoms if possible prior to discharge from the clinic. The primary outcome of the study will be the improvement in and resolution of BPPV symptoms with VREMS use as compared to IH. Secondary outcome will be mental workload in each of the study arms.
This is a preliminary study to determine the reliability and validity of new tests of orientation and balance, as well as to test the effects of a new treatment for visually induced dizziness. Tests involve determining vertical alignment. The treatment is task-based and involves focusing attention on internal body sensations to help improve the sense of upright. Testing is done twice before and twice after treatment, which is provided twice-weekly during a three-week period between testing. The total time participants are involved in the study is approximately six weeks.
The study is aimed in patients with persistent dizziness as the chief complaint that is treated with acupuncture or/and far-infrared heat-patch attachment intervention over the acupoints for the purpose of dizziness symptoms treatment. The research hypothesis is that the treatment over acupoints in traditional Chinese medicine is effective in treating symptoms of dizziness.
There is a need to manage dizziness in vestibular dysfunction patients with the vestibular rehabilitation to improve the life style of these patients. Vestibular rehabilitation exercises are beneficial for the vestibular dysfunction patients because they decrease dizziness and visual symptoms, increase walking and balance functions and with this the general activity level also increases. In my study my goal is to apply two different vestibular exercise and check their effects on dizziness in hearing impaired children's.
Dizziness (BPPV) causes severe deterioration in quality of life, incoordination, and instability. In the study, we selected a minimum of 100 patients with BPPV who were examined after specialist care. After the acute phase, a physical survey is performed where movement and coordination are examined. After the results, the patients undergo a rehabilitation training. The workout is submaximal and high intensity that is done for 3 weeks. Hypothesis: As a result of training, it is possible that the remaining feeling of dizziness and insecurity, impaired coordination will decrease or disappear.
Previous works demonstrated the relationship between postural disturbances and reduction in cervical range of motion (CROM) in patients suffering from cervicogenic dizziness (CGD). Since sustained natural apophyseal glides (SNAGs) have been proposed as an effective treatment, the aim of the present study was to evaluate how clinical measures could be affected in patients with cervicogenic dizziness undergoing SNAGs.
This is a preliminary study of how human beings control balance and how symptoms of visually-induced dizziness may result in falls. The researchers created new tests of orientation and balance, as well as a new treatment for visually-induced dizziness. The researchers will use the new tests and treatments with adults who are affected by visually-induced dizziness. Testing is done twice before and once after treatment. The total time participants are involved in the study is approximately two weeks.
The specific aims of this pilot project are: Aim #1: Determine the extent to which sensory integration strategies differ between 28 individuals with unilateral vestibular hypofunction and 28 age-matched peers. Participants' postural sway will be recorded as they experience two levels of moving stars10 and white noise, while standing on the floor or a compliant surface. Our working hypothesis is that patients with vestibular hypofunction utilize substitution strategies such that they will demonstrate greater visual and auditory reliance compared with controls, particularly when somatosensory cues are reduced via the support surface. We will then explore whether these mechanism changes after training. Aim #2: Develop the protocol and establish the feasibility of a randomized controlled trial (RCT) comparing C.S.I. training to standard vestibular rehabilitation. Following the assessment, the 28 patients will be randomized into standard vestibular rehabilitation vs. C.S.I. training. This pilot study will enable us to test the feasibility of our recruitment, randomization procedures, establish attrition rate, and test the training protocol. Aim #3: Generate pilot data for sample size calculation for a properly powered RCT. The follow up RCT will test the effect of C.S.I. training on: Visual Vertigo Analog Scale (VVAS), Functional Gait Analysis (primary); balance confidence, overall disability (descriptive). In our preliminary study, 8 patients met the inclusion criteria for the current proposal. Following the C.S.I. training, they had a large effect size of 1.17 on the VVAS. The current study will allow us to identify the between-group effect size for the VVAS and for a functional gait outcome.