View clinical trials related to Dysfunction of Vestibular System.
Filter by:Rapidly evolving virtual reality (VR) and augmented reality (AR) technologies are being incorporated by many large-scale industries, and the medical field is no exception. One area that has gained significant attention in recent years is virtual rehabilitation which allows physical therapists to leverage state-of-the-art immersive virtual environments to uniquely address functional deficits in patients who are unresponsive to conventional treatment techniques. Advanced VR and AR technologies are now available in commercially available small-scale, mobile head-mounted displays which can be readily used in outpatient clinic settings and possibly at home. The aim of this study is to determine whether advanced VR- and AR-based physical therapy improves functional status and reduces self-reported symptoms in individuals experiencing vestibular disorders secondary to mild traumatic brain injury (mTBI). Study participants will be randomized into treatment groups: 1) conventional therapy, 2) therapy performed using a large-scale VR system (the Computer Assisted Rehabilitation Environment or CAREN), 3) therapy performed using a mobile AR. Upon completion of treatment, groups will be compared to determine functional outcome improvements with respect to static and dynamic balance as well as reduction of vestibular symptoms.
Introduction: the global sugar consumption has increased in the past 50 years and their abusive intake is responsible for the insulin resistance and causes the metabolic syndrome - obesity, diabetes mellitus, hypertension and coronary heart disease. Objective: To evaluate the effect of scheduled diet without glucose as treatment of labyrinthine disorders associated with glucose-insulin index. Study Design: A prospective randomized controlled trial. Patients and Methods: A study conducted at the University of São Paulo with 51 patients divided into two groups: Diet Group (DG) that comprises subjects treated with fractionated diet with glucose restriction and control group (CG) where individuals were not counseled regarding diet. Patients underwent computerized dynamic posturography - sensory organization test (CDP - SOT) and Visual Analog Scale (VAS) in the first and thirtieth days of the study.
Vestibular dysfunction is a known contributor to imbalance and fall risk, and may be a precursor to the frailty phenotype seen in the elderly population. A recent study found that vestibular dysfunction is common in the US population, and that the prevalence of this impairment increases steeply with age. However, it is unknown whether the aging process has global effects on the vestibular end-organ or whether specific structures, e.g. the semicircular canals or the otoliths, are selectively impaired. Moreover, the clinical implications of specific deficits of the vestibular end-organ are unclear. As such, the aims of this proposed research are: 1) to evaluate whether the normative aging process is predominantly associated with dysfunction of the semicircular canals (as measured by caloric and angular vestibulo-ocular reflex testing) or of the otoliths (as measured by vestibular-evoked myogenic potential (VEMP) testing); 2) to determine if there are any characteristic clinical features associated with the subtypes of vestibular dysfunction; and 3) to assess whether dysfunction of the semicircular canals or of the otoliths is associated with a higher risk of frailty and falls. The investigators plan to pursue these aims through a cross-sectional and prospective cohort study of a group of individuals age 70 and above. Vestibular physiologic tests will be administered to all study participants, and test results will be correlated with baseline clinical symptoms and frailty status as well as prospective one-year fall risk. A greater understanding of vestibular physiologic deficits and clinical implications in older individuals can inform the development of rational vestibular rehabilitation strategies that may more effectively mitigate the frailty phenotype and reduce fall risk.
The purpose of this study is to characterize the accompanying symptoms, evaluation and management of patients with chronic vestibular dysfunction presenting with nausea and vomiting.
BACKGROUND A Cochrane review from 2003 found that about 30% of people 65 years or older each year fall and that number is even higher for elder people living in institutions. Falls are the cause of 95% of all hip fractures, resulting in prolonged hospitalization and prolonged disability. In patients who are referred to the emergency room after unexplained fall, a study of 564 patients showed that 80% of the patients had vestibular symptoms characterized by balance problems, nausea, impairment, vomiting, and dizziness. 41% of the patients had dizziness suggesting a dysfunctional vestibular system called vestibular dysfunction. In patients with vestibular dysfunction, vestibular rehabilitation (VR) can reduce fall risk. Several studies show however that the elderly has a decreased compliance in relation to the performance of home exercise. A solution to support the older vestibular rehabilitation process and to maintain the achieved level of functionality after the rehabilitation process is the computer-training program "Move It To Improve It" (MITII). Based on individual studies and tests therapists develop a personalized rehabilitation program permanently corrected, modified and adjusted. The system generates feedback to the therapists at hospital with information about the person's daily training and scores of individual exercises. The Web cam makes it possible to make video footage and pictures to be used in the feedback information. The system also establish direct communication between users and therapists. The web community provide the framework for a telerehabilitation system, which means that the hospital can service more users in the same period. The ph.d. consist of three studies which has the purposes: To compare a computer exercise program (Mitii) with conservative home-training according to printed instructions in the rehabilitation of patients with vistibular dysfunction in an outpatient clinic To investigate whether the effect of vestibular rehabilitation is preserved three months after the completion of supervised training in an outpatient clinic for specific vestibular rehabilitation and whether a computer assisted home training program (Mitii) is superior to printed instructions in this respect To evaluate patient experience and barriers for the use fo the computer assisted rehabilitation of patients with vestibular dysfunction