Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot Study

Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot Study

Humans are surrounded by sources of daily exposure to power-frequency (60 Hz in North America) magnetic fields (MFs). Such time-varying MFs induce electric fields and currents in living structures which possibly lead to biological effects. The present pilot study examined possible extremely low freq...

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Bibliographic Details
Main Authors: Shirin Davarpanah Jazi, Julien Modolo, Cadence Baker, Sebastien Villard, Alexandre Legros
Format: Article
Language:English
Published: MDPI AG 2017-11-01
Series:International Journal of Environmental Research and Public Health
Subjects:
human
electroencephalography
extremely low frequency
magnetic field
physiological tremor
Online Access:https://www.mdpi.com/1660-4601/14/12/1446
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spelling doaj-24c1188b787540fdb6c812589a86e9122020-11-24T23:55:28ZengMDPI AGInternational Journal of Environmental Research and Public Health1660-46012017-11-011412144610.3390/ijerph14121446ijerph14121446Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot StudyShirin Davarpanah Jazi0Julien Modolo1Cadence Baker2Sebastien Villard3Alexandre Legros4Human Threshold Research Group, Imaging Program, Lawson Health Research Institute, London, ON N6A 4V2, CanadaHuman Threshold Research Group, Imaging Program, Lawson Health Research Institute, London, ON N6A 4V2, CanadaHuman Threshold Research Group, Imaging Program, Lawson Health Research Institute, London, ON N6A 4V2, CanadaHuman Threshold Research Group, Imaging Program, Lawson Health Research Institute, London, ON N6A 4V2, CanadaHuman Threshold Research Group, Imaging Program, Lawson Health Research Institute, London, ON N6A 4V2, CanadaHumans are surrounded by sources of daily exposure to power-frequency (60 Hz in North America) magnetic fields (MFs). Such time-varying MFs induce electric fields and currents in living structures which possibly lead to biological effects. The present pilot study examined possible extremely low frequency (ELF) MF effects on human neuromotor control in general, and physiological postural tremor and electroencephalography (EEG) in particular. Since the EEG cortical mu-rhythm (8–12 Hz) from the primary motor cortex and physiological tremor are related, it was hypothesized that a 60 Hz MF exposure focused on this cortical region could acutely modulate human physiological tremor. Ten healthy volunteers (age: 23.8 ± 4 SD) were fitted with a MRI-compatible EEG cap while exposed to 11 MF conditions (60 Hz, 0 to 50 mTrms, 5 mTrms increments). Simultaneously, physiological tremor (recorded from the contralateral index finger) and EEG (from associated motor and somatosensory brain regions) were measured. Results showed no significant main effect of MF exposure conditions on any of the analyzed physiological tremor characteristics. In terms of EEG, no significant effects of the MF were observed for C1, C3, C5 and CP1 electrodes. However, a significant main effect was found for CP3 and CP5 electrodes, both suggesting a decreased mu-rhythm spectral power with increasing MF flux density. This is however not confirmed by Bonferroni corrected pairwise comparisons. Considering both EEG and tremor findings, no effect of the MF exposure on human motor control was observed. However, MF exposure had a subtle effect on the mu-rhythm amplitude in the brain region involved in tactile perception. Current findings are to be considered with caution due to the small size of this pilot work, but they provide preliminary insights to international agencies establishing guidelines regarding electromagnetic field exposure with new experimental data acquired in humans exposed to high mT-range MFs.https://www.mdpi.com/1660-4601/14/12/1446humanelectroencephalographyextremely low frequencymagnetic fieldphysiological tremor
collection DOAJ
language English
format Article
sources DOAJ
author Shirin Davarpanah Jazi
Julien Modolo
Cadence Baker
Sebastien Villard
Alexandre Legros
spellingShingle Shirin Davarpanah Jazi
Julien Modolo
Cadence Baker
Sebastien Villard
Alexandre Legros
Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot Study
International Journal of Environmental Research and Public Health
human
electroencephalography
extremely low frequency
magnetic field
physiological tremor
author_facet Shirin Davarpanah Jazi
Julien Modolo
Cadence Baker
Sebastien Villard
Alexandre Legros
author_sort Shirin Davarpanah Jazi
title Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot Study
title_short Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot Study
title_full Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot Study
title_fullStr Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot Study
title_full_unstemmed Effects of A 60 Hz Magnetic Field of Up to 50 milliTesla on Human Tremor and EEG: A Pilot Study
title_sort effects of a 60 hz magnetic field of up to 50 millitesla on human tremor and eeg: a pilot study
publisher MDPI AG
series International Journal of Environmental Research and Public Health
issn 1660-4601
publishDate 2017-11-01
description Humans are surrounded by sources of daily exposure to power-frequency (60 Hz in North America) magnetic fields (MFs). Such time-varying MFs induce electric fields and currents in living structures which possibly lead to biological effects. The present pilot study examined possible extremely low frequency (ELF) MF effects on human neuromotor control in general, and physiological postural tremor and electroencephalography (EEG) in particular. Since the EEG cortical mu-rhythm (8–12 Hz) from the primary motor cortex and physiological tremor are related, it was hypothesized that a 60 Hz MF exposure focused on this cortical region could acutely modulate human physiological tremor. Ten healthy volunteers (age: 23.8 ± 4 SD) were fitted with a MRI-compatible EEG cap while exposed to 11 MF conditions (60 Hz, 0 to 50 mTrms, 5 mTrms increments). Simultaneously, physiological tremor (recorded from the contralateral index finger) and EEG (from associated motor and somatosensory brain regions) were measured. Results showed no significant main effect of MF exposure conditions on any of the analyzed physiological tremor characteristics. In terms of EEG, no significant effects of the MF were observed for C1, C3, C5 and CP1 electrodes. However, a significant main effect was found for CP3 and CP5 electrodes, both suggesting a decreased mu-rhythm spectral power with increasing MF flux density. This is however not confirmed by Bonferroni corrected pairwise comparisons. Considering both EEG and tremor findings, no effect of the MF exposure on human motor control was observed. However, MF exposure had a subtle effect on the mu-rhythm amplitude in the brain region involved in tactile perception. Current findings are to be considered with caution due to the small size of this pilot work, but they provide preliminary insights to international agencies establishing guidelines regarding electromagnetic field exposure with new experimental data acquired in humans exposed to high mT-range MFs.
topic human
electroencephalography
extremely low frequency
magnetic field
physiological tremor
url https://www.mdpi.com/1660-4601/14/12/1446
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