Individualized anodal transcranial direct current stimulation increases corticospinal excitability in children with hemiparesis due to early stroke: transcranial magnetic stimulation assessment data
2020-06-10
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2018-07
2018-07-01
2020-02
2020-02-23
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2020-02
2020-02-23
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Title
Individualized anodal transcranial direct current stimulation increases corticospinal excitability in children with hemiparesis due to early stroke: transcranial magnetic stimulation assessment data
Published Date
2020-06-10
Author Contact
Gillick, Bernadette T
gillick@umn.edu
gillick@umn.edu
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Human Subjects Data
Human Subjects Data
Abstract
Description
**This dataset contains 19 individuals (N01-N21, excl N10 and N18) with stroke and hemiparesis, age 7-22.
Data are stored in Matlab data structures, which contain a table and two sub-structures:
1. BasicInfo (table): demographics, group assignment
2. LesionedHemisphere (sub-structure): MEP data for lesioned hemisphere single-pulse TMS
3. NonlesionedHemispehre (sub-structure): MEP data for non-lesioned hemisphere single-pulse TMS
The data in the two sub-structures contain Matlab 6 tables, one for each time point:
1. Pre (i.e. Baseline)
2. Post0 (0 minutes after tDCS)
3. Post15 (15 minutes after tDCS)
4. Post30 (30 minutes after tDCS)
5. Post45 (45 minutes after tDCS)
6. Post60 (60 minutes after tDCS)
These tables contain a 20x24 array. Each row is an individual trial, each column is defined as follows:
Left hand muscle (Channel 1)
Column 1: Valid trial 1=yes, 0=no
Column 2: MEP amplitude (uV)
Column 3: MEP latency (ms)
Column 4: MEP AUC
Column 5: MEP number of peaks
Column 6: MEP duration (ms)
Columns 7-12: same as 1-6 for Right Hand muscle (Channel 2)
Columns 12-18: same as 1-6 for Left Wrist muscle (Channel 3)
Columns 19-24: same as 1-6 for Right Wrist muscle (Channel 4)
**For all data in Matlab tables, use the command table2array to convert the table to a numeric matrix.
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National Center for Neuromodulation for Rehabilitation (NC NM4R) and the Eunice Kennedy Shriver National Institute of Child Health & Human Development of the National Institutes of Health (P2CHD086844 andHD078484-01A1), the University of Minnesota Foundation and University of Minnesota Medical School, the University of Minnesota Center for Magnetic Resonance Research (P41 EB027061, P30 NS076408, 1S10OD017974-01)
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Nemanich, Samuel T; Lench, Daniel H; Sutter, Ellen N; Kowalski, Jesse L; Francis, Sunday; Meekins, Greg; Krach, Linda; Feyma, Tim; Gillick, Bernadette T. (2020). Individualized anodal transcranial direct current stimulation increases corticospinal excitability in children with hemiparesis due to early stroke: transcranial magnetic stimulation assessment data. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://hdl.handle.net/11299/213923.
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N01.mat
N01
(11.78 KB)
N02.mat
N02
(20.63 KB)
N03.mat
N03
(25.25 KB)
N04.mat
N04
(21.2 KB)
N05.mat
N05
(19.33 KB)
N06.mat
N06
(19.2 KB)
N07.mat
N07
(20.51 KB)
N08.mat
N08
(15.09 KB)
N09.mat
N09
(21.02 KB)
N11.mat
N11
(17.38 KB)
N12.mat
N12
(16.8 KB)
N13.mat
N13
(14.28 KB)
N14.mat
N14
(16.82 KB)
N15.mat
N15
(21.75 KB)
N16.mat
N16
(10.07 KB)
N17.mat
N17
(14.56 KB)
N19.mat
N19
(22.96 KB)
N20.mat
N20
(19.7 KB)
N21.mat
N21
(19.02 KB)
Readme_Codebook_published_Nemanich.txt
Description of the data
(7.04 KB)
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