Roll tilt self-motion direction discrimination training: First evidence for perceptual learning

Klaus, Manuel Patrick; Schöne, Corina G.; Hartmann, Matthias; Merfeld, Daniel M.; Schubert, Michael C.; Mast, Fred W.

doi:10.3758/s13414-019-01967-2

Cited by 14 publications

(9 citation statements)

References 60 publications

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“…More recently, perceptual thresholds were used to document the first evidence of perceptual learning in the vestibular domain 14 .…”

Section: Discussionmentioning

confidence: 99%

“…A three-down/one-up staircase targets the intensity where participants correctly respond in 79.4% of the trials. Besides adaptive staircase procedures, other studies 14 have used predefined, fixed intensities for threshold estimations. Using fixed intensities allows for estimating the whole psychometric function, which contains a lot more information than a single threshold value.…”

Section: Introductionmentioning

confidence: 99%

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Estimating Vestibular Perceptual Thresholds Using a Six-Degree-Of-Freedom Motion Platform

Ertl

Fitze

Wyssen

et al. 2022

JoVE

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Vestibular perceptual thresholds refer to the motion intensity required to enable a participant to detect or discriminate a motion based on vestibular input. Using passive motion profiles provided by six degree-of-motion platforms, vestibular perceptual thresholds can be estimated for any kind of motion and thereby target each of the sub-components of the vestibular end-organ. Assessments of vestibular thresholds are clinically relevant as they complement diagnostic tools such as caloric irrigation, the head impulse test (HIT), or vestibular evoked myogenic potentials (VEMPs), which only provide information on sub-components of the vestibular system, but none of them allow for assessing all components. There are several methods with different advantages and disadvantages for estimating vestibular perceptual thresholds. In this article, we present a protocol using an adaptive staircase algorithm and sinusoidal motion profiles for an efficient estimation procedure. Adaptive staircase algorithms consider the response history to determine the peak velocity of the next stimuli and are the most commonly used algorithms in the vestibular domain. We further discuss the impact of motion frequency on vestibular perceptual thresholds.

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“…More recently, perceptual thresholds were used to document the first evidence of perceptual learning in the vestibular domain 14 .…”

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Estimating Vestibular Perceptual Thresholds Using a Six-Degree-Of-Freedom Motion Platform

Ertl

Fitze

Wyssen

et al. 2022

JoVE

View full text Add to dashboard Cite

show abstract

“…PlatformCommander will then calculate the necessary steps and amplitudes to reach the end-position, while following a sinusoidal profile. Sinusoidal profiles are the most frequently used stimuli in hexapod experiments [2,4,6,13,16,[23][24][25], but PlatformCommander enables specifying arbitrary motion profiles. Once the requested motion sequence is done the hexapod will remain in its final position and the server is waiting for new instructions.…”

Section: Short Sequence Modementioning

confidence: 99%

“…Compared to other stimulation techniques such as caloric vestibular stimulation or galvanic vestibular stimulation (GVS), hexapods allow for more naturalistic stimuli and the selective stimulation of all five sub-components of the peripheral vestibular organ [1]. Hexapods have been used by various research groups around the world to study vestibular thresholds [2][3][4][5][6][7], multi-sensory integration [8][9][10][11][12] or perceptual decision making [13][14][15]. Most laboratories [2,14,[16][17][18][19][20] use hardware by the same manufacturer (MOOG) and often even the same model (6DOF2000E).…”

Section: Introductionmentioning

confidence: 99%

PlatformCommander — An open source software for an easy integration of motion platforms in research laboratories

et al. 2022

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“…It has previously been suggested that vestibular sensory noise may be a limiting factor for sensorimotor adaptation (Clark and Merfeld, 2017), and this model prediction supports the idea that individuals with greater vestibular sensory noise may be slower to adapt to gravity transitions. Excitingly, there is some evidence that through extensive training, an individual may improve their innate vestibular perceptual thresholds (Klaus et al, 2020), though whether that would in turn improve their capacity to adapt to altered gravity remains untested.…”

Section: Time Course Of Adaptationmentioning

confidence: 99%

COMPASS: Computations for Orientation and Motion Perception in Altered Sensorimotor States

Kravets

Dixon

Ahmed

et al. 2021

Front. Neural Circuits

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Reliable perception of self-motion and orientation requires the central nervous system (CNS) to adapt to changing environments, stimuli, and sensory organ function. The proposed computations required of neural systems for this adaptation process remain conceptual, limiting our understanding and ability to quantitatively predict adaptation and mitigate any resulting impairment prior to completing adaptation. Here, we have implemented a computational model of the internal calculations involved in the orientation perception system’s adaptation to changes in the magnitude of gravity. In summary, we propose that the CNS considers parallel, alternative hypotheses of the parameter of interest (in this case, the CNS’s internal estimate of the magnitude of gravity) and uses the associated sensory conflict signals (i.e., difference between sensory measurements and the expectation of them) to sequentially update the posterior probability of each hypothesis using Bayes rule. Over time, an updated central estimate of the internal magnitude of gravity emerges from the posterior probability distribution, which is then used to process sensory information and produce perceptions of self-motion and orientation. We have implemented these hypotheses in a computational model and performed various simulations to demonstrate quantitative model predictions of adaptation of the orientation perception system to changes in the magnitude of gravity, similar to those experienced by astronauts during space exploration missions. These model predictions serve as quantitative hypotheses to inspire future experimental assessments.

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Roll tilt self-motion direction discrimination training: First evidence for perceptual learning

Cited by 14 publications

References 60 publications

Estimating Vestibular Perceptual Thresholds Using a Six-Degree-Of-Freedom Motion Platform

Estimating Vestibular Perceptual Thresholds Using a Six-Degree-Of-Freedom Motion Platform

PlatformCommander — An open source software for an easy integration of motion platforms in research laboratories

COMPASS: Computations for Orientation and Motion Perception in Altered Sensorimotor States

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