Clinical Trials Logo

Clinical Trial Summary

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.


Clinical Trial Description

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. It is particularly important in children for the acquisition of sitting, standing and then walking. When a congenital vestibular deficit exists, adaptive behaviors using visual and proprioceptive inputs are set up. 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. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04791748
Study type Interventional
Source Assistance Publique - Hôpitaux de Paris
Contact Françoise Denoyelle, MD, PhD
Phone 1 71 39 67 85
Email f.denoyelle@aphp.fr
Status Recruiting
Phase N/A
Start date April 12, 2021
Completion date February 2025

See also
  Status Clinical Trial Phase
Completed NCT02533739 - Vestibular Disorder and Visuo-spatial Functions N/A
Completed NCT00271791 - Prednisone Treatment for Vestibular Neuronitis Phase 2
Recruiting NCT06332326 - Investigation of the Efficacy of Non-Invasive Vagus Nerve Stimulation and Physiotherapy in Unilateral Vestibular Hypofunction Patients N/A
Completed NCT01483937 - Evaluation of a Sensory Enrichment Multimodal Device (SEMD) on Physical Therapy Patients With Disequilibrium N/A
Recruiting NCT05634902 - Implementation of Evidence-Based Practice for Dizziness N/A
Recruiting NCT05436067 - Individualized Vestibular Rehabilitation for Elderly With Self-Management and Gaming Elements N/A
Completed NCT02753179 - Covert-saccades, Dynamic Visual Acuity and Quality of Life N/A
Completed NCT03160352 - Effects of Exergames on Vestibular Function in Healthy Community Dwellers. N/A
Completed NCT03887923 - Vestibular Physical Therapy for People With Alzheimer Disease N/A
Terminated NCT01305278 - The Efficacy of Balance Gaming as an Adjunct to Vestibular Rehabilitation Therapy N/A
Completed NCT03464214 - The Effects of Local Vibration and Cervical Stabilization Exercises Applied on Neck Muscles on Balance in Healthy Individuals N/A
Recruiting NCT03799991 - Vestibular Therapy in Alzheimer's Disease N/A
Completed NCT02722486 - Use of a Vibrotactile Balance Belt System for Vestibular Rehabilitation in the Pediatric Population N/A
Not yet recruiting NCT06350669 - App-supported Vestibular Rehabilitation (RCT) N/A
Recruiting NCT03716908 - Genotype-phenotype Correlation Study of Presymptomatic and Symptomatic DFNA9 Patients
Completed NCT00768378 - Safety and Efficacy Study of BrainPort® Balance Device in Peripheral Vestibular Dysfunction. N/A
Withdrawn NCT03578354 - 4-Aminopyridine, Atenolol, or Placebo in Patients With Vestibular Migraine Phase 2
Completed NCT00702832 - Effect of Vestibular Rehabilitation - a Randomized Controlled Trial N/A
Recruiting NCT00146952 - Use of a Vibrotactile Sensory Prosthesis in Patients With Postural Imbalance and Spatial Disorientation Phase 1
Recruiting NCT05674786 - Vestibular Implantation to Treat Adult-Onset Bilateral Vestibular Hypofunction N/A