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Related Concept Videos

Equilibrium and Balance01:15

Equilibrium and Balance

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The inner ear assumes dual functionalities of auditory perception and equilibrium maintenance. The vestibule is the organ responsible for balance. This organ contains mechanoreceptors, specifically hair cells, endowed with stereocilia, which aid in deciphering information regarding the position and motion of our heads. Two intrinsic components, the utricle and saccule, help perceive head position, while the semicircular canals track head movement. Neurological messages initiated in the...
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The vestibular system is a set of inner ear structures that provide a sense of balance and spatial orientation. This system is comprised of structures within the labyrinth of the inner ear, including the cochlea and two otolith organs—the utricle and saccule. The labyrinth also contains three semicircular canals—superior, posterior, and horizontal—that are oriented on different planes.
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Measuring the Influence of Magnetic Vestibular Stimulation on Nystagmus, Self-Motion Perception, and Cognitive Performance in a 7T MRT
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Multimodal Biosensing for Vestibular Network-Based Cybersickness Detection.

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    Virtual reality (VR) can cause cybersickness (CS), impacting user experience. This study reveals the human vestibular network (HVN) is crucial for detecting VR-induced CS by analyzing physiological and neural signals.

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    Area of Science:

    • Neuroscience
    • Human-Computer Interaction
    • Vestibular System Research

    Background:

    • Virtual reality (VR) offers immersive experiences but frequently induces cybersickness (CS).
    • CS hinders the adoption and benefits of VR applications for susceptible individuals.
    • Current methods for detecting CS are insufficient for understanding its underlying mechanisms.

    Purpose of the Study:

    • To investigate the involvement of the human vestibular network (HVN) in VR-induced CS.
    • To explore the relationship between HVN activity across sensorimotor and cognitive domains and CS severity.
    • To determine if HVN-based indicators can effectively detect and predict CS.

    Main Methods:

    • Simultaneous recording of autonomic physiological and neural signals during VR exposure.
    • Utilized moderate and mild CS-inducing VR tasks, including entertaining and cognitive challenges.
    • Assessed cognitive control ability and attentional engagement alongside CS ratings.

    Main Results:

    • CS was found to impair cognitive control ability and attentional engagement.
    • Combined indicators from sensorimotor, cognitive, and autonomic HVN domains showed the strongest correlation with CS ratings.
    • Each HVN domain demonstrated unique predictive capabilities for dynamic changes in CS severity and duration.

    Conclusions:

    • Provides evidence for the significant involvement of the human vestibular network (HVN) in the generation and experience of cybersickness.
    • Highlights the necessity of a multi-domain HVN approach for accurate and comprehensive CS detection.
    • Suggests potential for developing novel, HVN-based strategies to mitigate or manage VR-induced cybersickness.