Static magnetic field stimulation of the supplementary motor area modulates resting-state activity and motor behavior

Focal application of a strong static magnetic field over the human scalp induces measurable local changes in brain function. Whether it also induces distant effects across the brain and how these local and distant effects collectively affect motor behavior remains unclear. Here we applied transcrani...

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Published in	Communications biology Vol. 2; no. 1; p. 397
Main Authors	Pineda-Pardo, José A., Obeso, Ignacio, Guida, Pasqualina, Dileone, Michele, Strange, Bryan A., Obeso, José A., Oliviero, Antonio, Foffani, Guglielmo
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 31.10.2019 Nature Publishing Group
Subjects	59/36 631/1647/1453/2105 631/1647/245/1628 631/378/2632/1663 631/378/2649/1409 Accuracy Adult Behavior Biology Biomedical and Life Sciences Brain mapping Circuits Cognitive ability Cortex (frontal) Cross-Over Studies Double-Blind Method Female Frontal gyrus Functional magnetic resonance imaging Functional Neuroimaging Healthy Volunteers Humans Life Sciences Magnetic fields Magnetic Resonance Imaging Male Models, Neurological Motor Activity - physiology Motor Cortex - diagnostic imaging Motor Cortex - physiology Neural networks Rest - physiology Scalp Supplementary motor area Transcranial Magnetic Stimulation - methods Young Adult Transcranial magnetic stimulation Magnetic resonance imaging Motor cortex Decision
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ISSN	2399-3642 2399-3642
DOI	10.1038/s42003-019-0643-8

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Abstract	Focal application of a strong static magnetic field over the human scalp induces measurable local changes in brain function. Whether it also induces distant effects across the brain and how these local and distant effects collectively affect motor behavior remains unclear. Here we applied transcranial static magnetic field stimulation (tSMS) over the supplementary motor area (SMA) in healthy subjects. At a behavioral level, tSMS increased the time to initiate movement while decreasing errors in choice reaction-time tasks. At a functional level, tSMS increased SMA resting-state fMRI activity and bilateral functional connectivity between the SMA and both the paracentral lobule and the lateral frontotemporal cortex, including the inferior frontal gyrus. These results suggest that tSMS over the SMA can induce behavioral aftereffects associated with modulation of both local and distant functionally-connected cortical circuits involved in the control of speed-accuracy tradeoffs, thus offering a promising protocol for cognitive and clinical research. Pineda-Pardo et al. show that focal application of a strong permanent magnet over the supplementary motor area shifts the speed-accuracy tradeoff towards accuracy by modulating both cortical circuits and distant cortical networks. This study suggests the utility of transcranial static magnetic field stimulation for cognitive research.
AbstractList	Focal application of a strong static magnetic field over the human scalp induces measurable local changes in brain function. Whether it also induces distant effects across the brain and how these local and distant effects collectively affect motor behavior remains unclear. Here we applied transcranial static magnetic field stimulation (tSMS) over the supplementary motor area (SMA) in healthy subjects. At a behavioral level, tSMS increased the time to initiate movement while decreasing errors in choice reaction-time tasks. At a functional level, tSMS increased SMA resting-state fMRI activity and bilateral functional connectivity between the SMA and both the paracentral lobule and the lateral frontotemporal cortex, including the inferior frontal gyrus. These results suggest that tSMS over the SMA can induce behavioral aftereffects associated with modulation of both local and distant functionally-connected cortical circuits involved in the control of speed-accuracy tradeoffs, thus offering a promising protocol for cognitive and clinical research. Focal application of a strong static magnetic field over the human scalp induces measurable local changes in brain function. Whether it also induces distant effects across the brain and how these local and distant effects collectively affect motor behavior remains unclear. Here we applied transcranial static magnetic field stimulation (tSMS) over the supplementary motor area (SMA) in healthy subjects. At a behavioral level, tSMS increased the time to initiate movement while decreasing errors in choice reaction-time tasks. At a functional level, tSMS increased SMA resting-state fMRI activity and bilateral functional connectivity between the SMA and both the paracentral lobule and the lateral frontotemporal cortex, including the inferior frontal gyrus. These results suggest that tSMS over the SMA can induce behavioral aftereffects associated with modulation of both local and distant functionally-connected cortical circuits involved in the control of speed-accuracy tradeoffs, thus offering a promising protocol for cognitive and clinical research.Pineda-Pardo et al. show that focal application of a strong permanent magnet over the supplementary motor area shifts the speed-accuracy tradeoff towards accuracy by modulating both cortical circuits and distant cortical networks. This study suggests the utility of transcranial static magnetic field stimulation for cognitive research. Focal application of a strong static magnetic field over the human scalp induces measurable local changes in brain function. Whether it also induces distant effects across the brain and how these local and distant effects collectively affect motor behavior remains unclear. Here we applied transcranial static magnetic field stimulation (tSMS) over the supplementary motor area (SMA) in healthy subjects. At a behavioral level, tSMS increased the time to initiate movement while decreasing errors in choice reaction-time tasks. At a functional level, tSMS increased SMA resting-state fMRI activity and bilateral functional connectivity between the SMA and both the paracentral lobule and the lateral frontotemporal cortex, including the inferior frontal gyrus. These results suggest that tSMS over the SMA can induce behavioral aftereffects associated with modulation of both local and distant functionally-connected cortical circuits involved in the control of speed-accuracy tradeoffs, thus offering a promising protocol for cognitive and clinical research. Pineda-Pardo et al. show that focal application of a strong permanent magnet over the supplementary motor area shifts the speed-accuracy tradeoff towards accuracy by modulating both cortical circuits and distant cortical networks. This study suggests the utility of transcranial static magnetic field stimulation for cognitive research. Focal application of a strong static magnetic field over the human scalp induces measurable local changes in brain function. Whether it also induces distant effects across the brain and how these local and distant effects collectively affect motor behavior remains unclear. Here we applied transcranial static magnetic field stimulation (tSMS) over the supplementary motor area (SMA) in healthy subjects. At a behavioral level, tSMS increased the time to initiate movement while decreasing errors in choice reaction-time tasks. At a functional level, tSMS increased SMA resting-state fMRI activity and bilateral functional connectivity between the SMA and both the paracentral lobule and the lateral frontotemporal cortex, including the inferior frontal gyrus. These results suggest that tSMS over the SMA can induce behavioral aftereffects associated with modulation of both local and distant functionally-connected cortical circuits involved in the control of speed-accuracy tradeoffs, thus offering a promising protocol for cognitive and clinical research.Focal application of a strong static magnetic field over the human scalp induces measurable local changes in brain function. Whether it also induces distant effects across the brain and how these local and distant effects collectively affect motor behavior remains unclear. Here we applied transcranial static magnetic field stimulation (tSMS) over the supplementary motor area (SMA) in healthy subjects. At a behavioral level, tSMS increased the time to initiate movement while decreasing errors in choice reaction-time tasks. At a functional level, tSMS increased SMA resting-state fMRI activity and bilateral functional connectivity between the SMA and both the paracentral lobule and the lateral frontotemporal cortex, including the inferior frontal gyrus. These results suggest that tSMS over the SMA can induce behavioral aftereffects associated with modulation of both local and distant functionally-connected cortical circuits involved in the control of speed-accuracy tradeoffs, thus offering a promising protocol for cognitive and clinical research.
ArticleNumber	397
Author	Pineda-Pardo, José A. Guida, Pasqualina Obeso, José A. Obeso, Ignacio Foffani, Guglielmo Strange, Bryan A. Oliviero, Antonio Dileone, Michele
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/31701026$$D View this record in MEDLINE/PubMed
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Snippet	Focal application of a strong static magnetic field over the human scalp induces measurable local changes in brain function. Whether it also induces distant...
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Title	Static magnetic field stimulation of the supplementary motor area modulates resting-state activity and motor behavior
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