Clinical Research Directory

Virtual Reality in Children With and Without Vestibular Deficits

Vestibular information is important in establishing a child's static and dynamic postural control. Any vestibular deficit can have major consequences on development, spatial cognition and quality of life. In order to interact with the world around us, we must simultaneously integrate different sources of sensory informations (vision, hearing, perception of the body...). The brain integrates these different sensory components to form a unified and coherent perception: this is multisensory integration. Multisensory integration has been studied using virtual reality in adults, in the "spatial orientation" team of the Center for Integrative Neurosciences and Cognition. These experiments were carried out on healthy subjects and in weightless situations (international space station or parabolic flight). However, no protocol has been developed in children or in subjects with vestibular deficit. Virtual reality is interesting for developing such a protocol because it creates multisensory stimulation capable of promoting visual and proprioceptive compensation of the vestibular deficit. It induces an immersion of the patient in a virtual spatial and temporal environment difficult to carry out with traditional vestibular rehabilitation techniques. Its main advantage is that it is a fun and safe interactive diagnostic and therapeutic tool, which is particularly suitable for children. Being able to modulate certain sensory information using virtual reality, in children without vestibular function deficit and in children with vestibular function deficit, will make it possible to better understand the role of the vestibule in the construction of the self in relation to space and environment. In addition to the scientific aspect, the diagnostic and therapeutic benefits are potentially numerous. The objective of the study is to determine a reliable, well-tolerated and age-appropriate virtual reality protocol in children without vestibular deficit and in children with chronic vestibular deficit, making it possible to study the hand-eye coordination.

Long Term Outcomes After Vestibular Implantation

Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no widely available, adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to bilateral vestibular hypofunction. Prior research focused on ototoxic cases has demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular implant can partially restore vestibular reflexes that normally maintain steady posture and vision; improve performance on objective measures of postural stability and gait; and improve patient-reported disability and health-related quality of life. This single-arm open-label study extends that research to evaluate outcomes for up to 8 individuals with non-ototoxic bilateral vestibular hypofunction, yielding a total of fifteen adults (age 22-90 years at time of enrollment) divided as equally as possible between ototoxic and non-ototoxic cases.

Multichannel Vestibular Implant Early Feasibility Study

Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to loss of vestibular hair cell function. Preclinical studies have demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular prosthesis can partially restore vestibular reflexes that maintain steady posture and vision. This pilot clinical feasibility study of a multichannel vestibular implant system will evaluate this approach in up to ten human subjects with bilateral vestibular deficiency due to gentamicin ototoxicity or other causes of inner ear dysfunction.

Vestibular Implantation to Treat Adult-Onset Bilateral Vestibular Hypofunction

Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no widely available, adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to bilateral vestibular hypofunction. Prior research focused on ototoxic cases has demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular implant can partially restore vestibular reflexes that normally maintain steady posture and vision; improve performance on objective measures of postural stability and gait; and improve patient-reported disability and health-related quality of life. This single-arm open-label study extends that research to evaluate outcomes for up to 8 individuals with non-ototoxic bilateral vestibular hypofunction, yielding a total of fifteen adults (age 22-90 years at time of enrollment) divided as equally as possible between ototoxic and non-ototoxic cases.

Vestibular Implantation in Older Adults

Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no widely available, adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to bilateral vestibular hypofunction. Prior research has demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular implant can partially restore vestibular reflexes that normally maintain steady posture and vision; improve performance on objective measures of postural stability and gait; and improve patient-reported disability and health-related quality of life. This single-arm open-label study extends that research to evaluate outcomes for up to fifteen older adults (age 65-90 years at time of enrollment) with ototoxic or non-ototoxic bilateral vestibular hypofunction.

Vestibular Therapy in Alzheimer's Disease

Nearly 2 out of 3 patients with Alzheimer's disease (AD) experience problems with balance and mobility, which places such patients at increased risk of falling. The vestibular (inner ear balance) system plays an important role in balance stability, and vestibular therapy (VT) is well-known to improve balance function in healthy older adults. In this study, the investigators will conduct a first-in-kind randomized clinical trial to evaluate whether vestibular therapy improves reduces falls in patients with AD, in whom this treatment has never been studied.

Telerehabilitation of Balance Clinical and Economic Decision Support System

This study follows the successfully completed HOLOBalance project which was funded by the EU Horizon 2020 scheme. TheHOLOBalance platform delivers exercises demonstrated via a hologram of the physiotherapist and corrected in real time by the hologram prompts based on performance monitoring via sensors. Further information is available at: https://holobalance.eu/. HOLOBalance was developed as a comprehensive rehabilitation protocol for individualised remote (tele)rehabilitation balance physiotherapy programme. It includes different multisensory balance and gait exercises, physical activity and memory training and exergames (video games which are also exercises) to improve balance function in older adults. The system can thus assess and remotely monitor how users are performing the exercises. This multisite randomised control trial (TeleRehab DSS, short for TeleRehabilitation Decision Support System) aims to (i) determine the system's safety, acceptability, and feasibility explore effectiveness of running such programme in comparison with the current standard care for middle-age/older adults with balance disorders/falls due to MCI, vestibular disorders, stroke or long Covid. This study also aims to (ii) assess if balance function, gait, cognitive function, balance confidence, and wellbeing can improve more compared to standard intervention and (iii) provide preliminary data for a definitive randomised controlled trial. This study involves human participants, and each clinical site has applied for appropriate ethical approval.

Implementation of Evidence-Based Practice for Dizziness

The study evaluates the implementation of evidence-based practice for the management of patients with dizziness in the emergency department (ED) within a large integrated health care system. The clinical focus is on benign paroxysmal positional vertigo (BPPV), unilateral vestibulopathy (e.g., vestibular neuritis), and stroke - which are disorders with established evidence-base practices for evaluation and management. Evidence-based practices for these clinical topics have not properly disseminated regarding dizziness visits, and this results in missed opportunities for effective and efficient care delivery. The investigators propose a hybrid type 3 effectiveness-implementation trial to evaluate an enhanced BPPV-centric implementation strategy and clinical intervention. The overall strategy, initially developed in Dizziness Treatment through Implementation \& Clinical strategy Tactics-1 (DIZZTINCT-1), will be improved to increase generalizability, convenience, exposures, sustainability, and dissemination. We use an innovative design of a stepped-wedge trial for the ED-level implementation strategy and an embedded randomized patient-level dissemination strategy. As a result, we can closely assess the individual and additive impact of study components. We will evaluate effectiveness of the implementation strategy and also confirm clinical outcomes.

Genotype-phenotype Correlation Study of Presymptomatic and Symptomatic DFNA9 Patients

DFNA9 (Deafness Autosomal Dominant 9) is an autosomal dominant hereditary hearing loss which is associated with vestibular deterioration. The most recent genotype-phenotype correlation studies have been conducted more than 15 years ago. Meanwhile, emerging and valuable vestibular tests have been added to the vestibular test battery. These tests were not available at the time of the correlation studies. The aim of this study is to carry out a prospective cross-sectional study on symptomatic and presymptomatic affected carriers of the Pro51Ser (P51S) Coagulation Factor C Homology (COCH) mutation in order to correlate vestibular data using the complete vestibular test battery with the known data on hearing and vestibular function in relation to age.