(A) Schematic of the VOR pathway. Both types of vestibular afferents (regular and irregular) convey head movement information to the vestibular nuclei, which, in turn, stabilize the gaze via the VOR. (B) Schematic of how the prosthesis converts head movements into pulsatile stimulation. The mapping (black box) consists of the linear transfer functions, which mimic the response dynamics of regular (blue) and irregular (red) afferents or represent the conventional mapping with static gain and phase lead (gray), in cascade with the sigmoidal nonlinearity, which limits the firing rate to be above zero and below the maximum rate of 500 Hz. (C) Example of the stimulation rate, modulated around the baseline rate of 150 pps, in response to sinusoid...
Two biologically accurate vestibular afferent models (for humans and mice) have been implemented as ...
The inherent properties of the vestibular system require both neural excitation and inhibition to en...
Objective. The vestibular system provides essential information about balance and spatial orientatio...
(A) Example traces of the evoked eye movements during 1, 5, and 10 Hz virtual sinusoidal rotations, ...
The vestibular system incorporates multiple sensory pathways to provide crucial information about he...
(A) The transfer functions of the additional mappings to explore the high-pass tuning parameter spac...
(A) Schematic of the VOR generation in a monkey implanted with the prosthesis. (B) The maximum evoke...
Electrical vestibular neurostimulation may be a viable tool for modulating vestibular afferent input...
The human vestibular system is responsible for maintaining balance and orientation, and stabilizing ...
The vestibular system functions by exciting neurons to increase their spike rate and by inhibiting n...
The vestibular system plays a crucial role in the multisensory control of balance. When vestibular f...
The vestibular system plays a crucial role in the multisensory control of balance. When vestibular f...
Researchers have succeeded in partly restoring damaged vestibular functionality in several animal mo...
The vestibular organs are very important to generate reflexes critical for stabilizing gaze and body...
Two biologically accurate vestibular afferent models (for humans and mice) have been implemented as ...
The inherent properties of the vestibular system require both neural excitation and inhibition to en...
Objective. The vestibular system provides essential information about balance and spatial orientatio...
(A) Example traces of the evoked eye movements during 1, 5, and 10 Hz virtual sinusoidal rotations, ...
The vestibular system incorporates multiple sensory pathways to provide crucial information about he...
(A) The transfer functions of the additional mappings to explore the high-pass tuning parameter spac...
(A) Schematic of the VOR generation in a monkey implanted with the prosthesis. (B) The maximum evoke...
Electrical vestibular neurostimulation may be a viable tool for modulating vestibular afferent input...
The human vestibular system is responsible for maintaining balance and orientation, and stabilizing ...
The vestibular system functions by exciting neurons to increase their spike rate and by inhibiting n...
The vestibular system plays a crucial role in the multisensory control of balance. When vestibular f...
The vestibular system plays a crucial role in the multisensory control of balance. When vestibular f...
Researchers have succeeded in partly restoring damaged vestibular functionality in several animal mo...
The vestibular organs are very important to generate reflexes critical for stabilizing gaze and body...
Two biologically accurate vestibular afferent models (for humans and mice) have been implemented as ...
The inherent properties of the vestibular system require both neural excitation and inhibition to en...
Objective. The vestibular system provides essential information about balance and spatial orientatio...