The brain combines visual, vestibular and proprioceptive information to distinguish between self- and world motion. Often these signals are complementary and indicate that the individual is moving or stationary with respect to the surroundings. However, conflicting visual motion and vestibular cues can lead to ambiguous or false sensations of motion. In this study, we used functional magnetic resonance imaging to explore human brain activation when visual and vestibular cues were either complementary or in conflict. We combined a horizontally moving optokinetic stimulus with caloric irrigation of the right ear to produce conditions where the vestibular activation and visual motion indicated the same (congruent) or opposite directions of sel...
Vestibular Agnosia - where peripheral vestibular activation triggers the usual reflex nystagmus resp...
International audienceVisuo-vestibular integration is crucial for locomotion, yet the cortic...
Processing of vestibular information at the cortical and subcortical level is essential for head and...
The brain combines visual, vestibular and proprioceptive information to distinguish between self- an...
The brain combines visual, vestibular and proprioceptive information to distinguish between self- an...
Vestibular neuritis (VN) is characterised by acute vertigo due to a sudden loss of unilateral vestib...
Since the advent of functional magnetic resonance imaging cognitive science has experienced a turn t...
Our phenomenological experience of the stable world is maintained by continuous integration of visua...
The central hub of the cortical vestibular network in humans is likely localized in the region of po...
Static body equilibrium is an essential requisite for human daily life. It is known that visual and ...
Optic-flow fields can induce the conscious illusion of self-motion in a stationary observer. Here we...
Optic-flow fields can induce the conscious illusion of self-motion in a stationary observer. Here we...
An extensive series of physiological studies in macaques shows the existence of neurons in three mul...
International audienceVisually induced illusion of self-motion (vection) has been used as a tool to ...
The conflict between vision and proprioception has been proposed to explain why healthy subjects per...
Vestibular Agnosia - where peripheral vestibular activation triggers the usual reflex nystagmus resp...
International audienceVisuo-vestibular integration is crucial for locomotion, yet the cortic...
Processing of vestibular information at the cortical and subcortical level is essential for head and...
The brain combines visual, vestibular and proprioceptive information to distinguish between self- an...
The brain combines visual, vestibular and proprioceptive information to distinguish between self- an...
Vestibular neuritis (VN) is characterised by acute vertigo due to a sudden loss of unilateral vestib...
Since the advent of functional magnetic resonance imaging cognitive science has experienced a turn t...
Our phenomenological experience of the stable world is maintained by continuous integration of visua...
The central hub of the cortical vestibular network in humans is likely localized in the region of po...
Static body equilibrium is an essential requisite for human daily life. It is known that visual and ...
Optic-flow fields can induce the conscious illusion of self-motion in a stationary observer. Here we...
Optic-flow fields can induce the conscious illusion of self-motion in a stationary observer. Here we...
An extensive series of physiological studies in macaques shows the existence of neurons in three mul...
International audienceVisually induced illusion of self-motion (vection) has been used as a tool to ...
The conflict between vision and proprioception has been proposed to explain why healthy subjects per...
Vestibular Agnosia - where peripheral vestibular activation triggers the usual reflex nystagmus resp...
International audienceVisuo-vestibular integration is crucial for locomotion, yet the cortic...
Processing of vestibular information at the cortical and subcortical level is essential for head and...