Data from: Effects of a 60 Hz magnetic field exposure up to 3000 µT on human brain activation as measured by functional magnetic resonance imaging

Legros A, Modolo J, Brown S, Robertson J, Thomas AW

Date Published: July 31, 2015

DOI: http://dx.doi.org/10.5061/dryad.p0c87

 

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Title fMRI full experiment 3000 microTesla part 1
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Description fMRI full experiment 3000 microTesla part 1-10: MRI and fMRI DICOM images corresponding to the full study conducted with a 3000 microTesla exposure. These DICOM files have been produced by a Siemens 3T Verio (Siemens, Germany) MRI, as described in the paper. DICOM is a standard format for MRI images, and these can be analyzed with software packages such as BrainVoyager (Brain Innovation, The Netherlands), which we have used in the paper; or an open-access software package such as FSL (http://fsl.fmrib.ox.ac.uk/fsl/fslwiki/). The analysis procedure for the fMRI data is fully described in the Methods section of the paper. DICOM files are available for each subject pre- and post-exposure, for each of the two tasks presented in the paper (finger tapping and mental rotation). Two tasks were used in this experiment: a mental rotation task and a finger tapping task. The subject who have properly conducted the mental rotation task and have been included in the analysis are: S02, S03, S04, S06, S07, S09, S10, S11, S12, S13, S14, S16, S17, S18, S20, S21, S23, S24, S25, S27, S29. The subject who have properly conducted the finger tapping task and have been included in the analysis are: S03, S04, S06, S07, S08, S09, S10, S12, S13, S14, S16, S17, S20, S22, S23, S24, S25, S26, S27, S29. Please feel free to contact the authors if further guidance is required.
Download fMRI full experiment 3000 microTesla part 1.zip (396.8 Mb)
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Title fMRI full experiment 3000 microTesla part 2
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Title fMRI full experiment 3000 microTesla part 3
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Title fMRI full experiment 3000 microTesla part 4
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Download fMRI full experiment 3000 microTesla part 4.zip (563.6 Mb)
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Title fMRI full experiment 3000 microTesla part 5
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Title fMRI full experiment 3000 microTesla part 6
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Download fMRI full experiment 3000 microTesla part 6.zip (595.0 Mb)
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Title fMRI full experiment 3000 microTesla part 7
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Download fMRI full experiment 3000 microTesla part 7.zip (377.5 Mb)
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Title fMRI full experiment 3000 microTesla part 8
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Title fMRI full experiment 3000 microTesla part 9
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Title fMRI full experiment 3000 microTesla part 10
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Download fMRI full experiment 3000 microTesla part 10.zip (598.5 Mb)
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Title fMRI_Pilot_1800_microTesla_DICOM part 1
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Description fMRI_Pilot_1800_microTesla_DICOM part 1-2: MRI and fMRI DICOM images corresponding to the pilot study conducted with a 1800 microTesla exposure These DICOM files have been produced by a Siemens 1.5T Avanto (Siemens, Germany) MRI, as described in the paper. DICOM is a standard format for MRI images, and these can be analyzed with software packages such as BrainVoyager (Brain Innovation, The Netherlands), which we have used in the paper; or an open-access software package such as FSL (http://fsl.fmrib.ox.ac.uk/fsl/fslwiki/). The analysis procedure for the fMRI data is fully described in the Methods section of the paper. DICOM files are available for each subject pre- and post-exposure, for each of the two tasks presented in the paper (finger tapping and mental rotation). Please feel free to contact the authors if further guidance is required.
Download fMRI_Pilot_1800_microTesla_DICOM part 1.zip (652.5 Mb)
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Title fMRI_Pilot_1800_microTesla_DICOM part 2
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Download fMRI_Pilot_1800_microTesla_DICOM part 2.zip (563.2 Mb)
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When using this data, please cite the original publication:

Legros A, Modolo J, Brown S, Robertson J, Thomas AW (2015) Effects of a 60 Hz magnetic field exposure up to 3000 µT on human brain activation as measured by functional magnetic resonance imaging. PLoS ONE 10(7): e0132024. http://dx.doi.org/ 10.1371/journal.pone.0132024

Additionally, please cite the Dryad data package:

Legros A, Modolo J, Brown S, Robertson J, Thomas AW (2015) Data from: Effects of a 60 Hz magnetic field exposure up to 3000 µT on human brain activation as measured by functional magnetic resonance imaging. Dryad Digital Repository. http://dx.doi.org/10.5061/dryad.p0c87
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