Noisy galvanic vestibular stimulation has been shown to improve vestibular perception in healthy subjects. Here, we sought to obtain similar results using more natural stimuli consisting of small-amplitude motion perturbations of the whole body. Thirty participants were asked to report the perceived direction of antero-posterior sinusoidal motion on a MOOG platform. We compared the baseline perceptual thresholds with those obtained by applying small, stochastic perturbations at different power levels along the antero-posterior axis, symmetrically distributed around a zero-mean. At the population level, we found that the thresholds for all but the highest level of noise were significantly lower than the baseline threshold. At the individual level, the threshold was lower with at least one noise level than the threshold without noise in 87% of participants. Thus, small, stochastic oscillations of the whole body can increase the probability of recognizing the direction of motion from low, normally subthreshold vestibular signals, possibly due to stochastic resonance mechanisms. We suggest that, just as the external noise of the present experiments, also the spontaneous random oscillations of the head and body associated with standing posture are beneficial by enhancing vestibular thresholds with a mechanism similar to stochastic resonance.

La Scaleia, B., Lacquaniti, F., Zago, M. (2023). Enhancement of vestibular motion discrimination by small stochastic whole-body perturbations in young healthy humans. NEUROSCIENCE, 510, 32-48 [10.1016/j.neuroscience.2022.12.010].

Enhancement of vestibular motion discrimination by small stochastic whole-body perturbations in young healthy humans

La Scaleia, Barbara;Lacquaniti, Francesco;Zago, Mirka
2023-01-01

Abstract

Noisy galvanic vestibular stimulation has been shown to improve vestibular perception in healthy subjects. Here, we sought to obtain similar results using more natural stimuli consisting of small-amplitude motion perturbations of the whole body. Thirty participants were asked to report the perceived direction of antero-posterior sinusoidal motion on a MOOG platform. We compared the baseline perceptual thresholds with those obtained by applying small, stochastic perturbations at different power levels along the antero-posterior axis, symmetrically distributed around a zero-mean. At the population level, we found that the thresholds for all but the highest level of noise were significantly lower than the baseline threshold. At the individual level, the threshold was lower with at least one noise level than the threshold without noise in 87% of participants. Thus, small, stochastic oscillations of the whole body can increase the probability of recognizing the direction of motion from low, normally subthreshold vestibular signals, possibly due to stochastic resonance mechanisms. We suggest that, just as the external noise of the present experiments, also the spontaneous random oscillations of the head and body associated with standing posture are beneficial by enhancing vestibular thresholds with a mechanism similar to stochastic resonance.
2023
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/09 - FISIOLOGIA
Settore BIOS-06/A - Fisiologia
English
Con Impact Factor ISI
vestibular thresholdsimperceptible stimulistochastic resonancedirection-recognitionspatial orientationposture
https://www.sciencedirect.com/science/article/pii/S0306452222006182?via=ihub
La Scaleia, B., Lacquaniti, F., Zago, M. (2023). Enhancement of vestibular motion discrimination by small stochastic whole-body perturbations in young healthy humans. NEUROSCIENCE, 510, 32-48 [10.1016/j.neuroscience.2022.12.010].
La Scaleia, B; Lacquaniti, F; Zago, M
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/320772
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