Measuring the Influence of Magnetic Vestibular Stimulation on Nystagmus, Self-Motion Perception, and Cognitive Performance in a 7T MRT

Strong magnetic fields induce dizziness, vertigo, and nystagmus due to Lorentz forces acting on the cupula in the semi-circular canals, an effect called magnetic vestibular stimulation (MVS). In this article, we present an experimental setup in a 7T MRT scanner (MRI scanner) that allows the investig...

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Veröffentlicht in:	Journal of visualized experiments 2023-03 (193)
Hauptverfasser:	Wyssen, Gerda, Morrison, Miranda, Korda, Athanasia, Wimmer, Wilhelm, Otero-Millan, Jorge, Ertl, Matthias, Szukics, Andreas A, Wyss, Thomas, Wagner, Franca, Caversaccio, Marco D, Mantokoudis, Georgios, Mast, Fred W
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Schlagworte:	Cognition Humans Magnetic Fields Motion Perception Semicircular Canals - diagnostic imaging Semicircular Canals - physiology Vertigo Vestibule, Labyrinth - diagnostic imaging Vestibule, Labyrinth - physiology
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creator	Wyssen, Gerda Morrison, Miranda Korda, Athanasia Wimmer, Wilhelm Otero-Millan, Jorge Ertl, Matthias Szukics, Andreas A Wyss, Thomas Wagner, Franca Caversaccio, Marco D Mantokoudis, Georgios Mast, Fred W
description	Strong magnetic fields induce dizziness, vertigo, and nystagmus due to Lorentz forces acting on the cupula in the semi-circular canals, an effect called magnetic vestibular stimulation (MVS). In this article, we present an experimental setup in a 7T MRT scanner (MRI scanner) that allows the investigation of the influence of strong magnetic fields on nystagmus as well as perceptual and cognitive responses. The strength of MVS is manipulated by altering the head positions of the participants. The orientation of the participants' semicircular canals with respect to the static magnetic field is assessed by combining a 3D magnetometer and 3D constructive interference in steady-state (3D-CISS) images. This approach allows to account for intra- and inter-individual differences in participants' responses to MVS. In the future, MVS can be useful for clinical research, for example, in the investigation of compensatory processes in vestibular disorders. Furthermore, it could foster insights into the interplay between vestibular information and cognitive processes in terms of spatial cognition and the emergence of self-motion percepts under conflicting sensory information. In fMRI studies, MVS can elicit a possible confounding effect, especially in tasks influenced by vestibular information or in studies comparing vestibular patients with healthy controls.
doi_str_mv	10.3791/64022
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subjects	Cognition Humans Magnetic Fields Motion Perception Semicircular Canals - diagnostic imaging Semicircular Canals - physiology Vertigo Vestibule, Labyrinth - diagnostic imaging Vestibule, Labyrinth - physiology
title	Measuring the Influence of Magnetic Vestibular Stimulation on Nystagmus, Self-Motion Perception, and Cognitive Performance in a 7T MRT
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