Otoneuro System Auditory Nervous System
The integrated solution for the diagnosis and treatment of balance disorders is designed for robust clinical decision-making.
An advanced system that combines balance analysis, virtual reality, and sensors to provide an accurate and effective experience in evaluating and treating dizziness and balance problems. Physiosensing Otoneuro combines posture measurement using a force plate, inertial sensor, and immersive virtual reality into a single software-powered workflow. Clinicians assess the vestibulo-visual reflex, visual-vestibular integration, proprioception in the neck, and postural control, then provide targeted, engaging treatment with automated reports to track progress.
The PhysioSensing Otoneuro System represents a new generation of technology to evaluate and rehabilitate the vestibular system, enabling doctors to view balance in a whole new way.
Thanks to the combination of high-precision inertial sensors, a force board, virtual reality technology and intelligent software, the system turns complex postural responses into clear, objective and actionable clinical insights.
Designed specifically for auditory neurologists, physical therapists, and balance rehabilitation specialists, the Otoneuro System enables accurate assessment of postural control, limits of stability, and dynamic balance in realistic clinical conditions. Its standardized protocols support accurate diagnosis, development of personalized treatment plans, and confident monitoring of patient progress over time.
The system is quick and easy to set up and use, and integrates seamlessly into daily clinical practice, while providing visually attractive reports that enhance clinical decision-making and patient motivation.
By bridging the gap between technology and functional rehabilitation, the PhysioSensing Otoneuro System redefines how balance disorders are assessed, treated and understood.
In this system, we take into account everyone who suffers from balance disorders in the world.
Clinical applications
- Functional Assessment and Training of the Vestibulo-Ocular Reflex (VOR)Measure the VOR using dynamic visual acuity and gaze stabilization tests, identify asymmetries, and perform adaptation exercises to improve gaze stability and reduce visual oscillations.
- Visual-Vestibular Integration and Motion SensitivityUse optokinetic stimuli within posturography to detect sensory conflict and visual dependence, then safely habituate using virtual reality scenarios specifically designed for motion-induced symptoms.
- Cervicogenic Dizziness and Proprioceptive ControlMeasure cervical joint position error using an inertial sensor to identify deficits in neck proprioception, and tailor head and neck repositioning tasks with real-time feedback.
- Postural Control and Sensory ReweightingObjectively assess static and dynamic balance, establish baseline measurements, and enhance clinical decision-making. Choose from various exercises to train balance, focusing on postural alignment, weight-shifting ability, directional control, stability limits, and sensory integration within progressively complex virtual reality environments.
For more information
Feel free to contact us anytime. Our team is always ready to help you.