Development of the Complex General Linear Model in the Fourier Domain : Application to fMRI Multiple Input-Output Evoked Responses for Single Subjects

A linear time-invariant model based on statistical time series analysis in the Fourier domain for single subjects is further developed and applied to functional MRI (fMRI) blood-oxygen level-dependent (BOLD) multivariate data. This methodology was originally developed to analyze multiple stimulus in...

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Published in	Computational and mathematical methods in medicine Vol. 2013; no. 2013; pp. 1 - 16
Main Authors	Rio, Daniel E., Rawlings, Robert R., Woltz, Lawrence A., Gilman, Jodi, Hommer, Daniel W.
Format	Journal Article
Language	English
Published	Cairo, Egypt Hindawi Puplishing Corporation 01.01.2013 Hindawi Publishing Corporation
Subjects	Alcoholism - blood Alcoholism - physiopathology Brain - physiology Computational Biology Evoked Potentials, Visual Fourier Analysis Hemodynamics Humans Image Interpretation, Computer-Assisted Linear Models Magnetic Resonance Imaging - statistics & numerical data Models, Neurological Multivariate Analysis Oxygen - blood Signal-To-Noise Ratio Statistics, Nonparametric
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Abstract	A linear time-invariant model based on statistical time series analysis in the Fourier domain for single subjects is further developed and applied to functional MRI (fMRI) blood-oxygen level-dependent (BOLD) multivariate data. This methodology was originally developed to analyze multiple stimulus input evoked response BOLD data. However, to analyze clinical data generated using a repeated measures experimental design, the model has been extended to handle multivariate time series data and demonstrated on control and alcoholic subjects taken from data previously analyzed in the temporal domain. Analysis of BOLD data is typically carried out in the time domain where the data has a high temporal correlation. These analyses generally employ parametric models of the hemodynamic response function (HRF) where prewhitening of the data is attempted using autoregressive (AR) models for the noise. However, this data can be analyzed in the Fourier domain. Here, assumptions made on the noise structure are less restrictive, and hypothesis tests can be constructed based on voxel-specific nonparametric estimates of the hemodynamic transfer function (HRF in the Fourier domain). This is especially important for experimental designs involving multiple states (either stimulus or drug induced) that may alter the form of the response function.
AbstractList	A linear time-invariant model based on statistical time series analysis in the Fourier domain for single subjects is further developed and applied to functional MRI (fMRI) blood-oxygen level-dependent (BOLD) multivariate data. This methodology was originally developed to analyze multiple stimulus input evoked response BOLD data. However, to analyze clinical data generated using a repeated measures experimental design, the model has been extended to handle multivariate time series data and demonstrated on control and alcoholic subjects taken from data previously analyzed in the temporal domain. Analysis of BOLD data is typically carried out in the time domain where the data has a high temporal correlation. These analyses generally employ parametric models of the hemodynamic response function (HRF) where prewhitening of the data is attempted using autoregressive (AR) models for the noise. However, this data can be analyzed in the Fourier domain. Here, assumptions made on the noise structure are less restrictive, and hypothesis tests can be constructed based on voxel-specific nonparametric estimates of the hemodynamic transfer function (HRF in the Fourier domain). This is especially important for experimental designs involving multiple states (either stimulus or drug induced) that may alter the form of the response function. A linear time-invariant model based on statistical time series analysis in the Fourier domain for single subjects is further developed and applied to functional MRI (fMRI) blood-oxygen level-dependent (BOLD) multivariate data. This methodology was originally developed to analyze multiple stimulus input evoked response BOLD data. However, to analyze clinical data generated using a repeated measures experimental design, the model has been extended to handle multivariate time series data and demonstrated on control and alcoholic subjects taken from data previously analyzed in the temporal domain. Analysis of BOLD data is typically carried out in the time domain where the data has a high temporal correlation. These analyses generally employ parametric models of the hemodynamic response function (HRF) where prewhitening of the data is attempted using autoregressive (AR) models for the noise. However, this data can be analyzed in the Fourier domain. Here, assumptions made on the noise structure are less restrictive, and hypothesis tests can be constructed based on voxel-specific nonparametric estimates of the hemodynamic transfer function (HRF in the Fourier domain). This is especially important for experimental designs involving multiple states (either stimulus or drug induced) that may alter the form of the response function.A linear time-invariant model based on statistical time series analysis in the Fourier domain for single subjects is further developed and applied to functional MRI (fMRI) blood-oxygen level-dependent (BOLD) multivariate data. This methodology was originally developed to analyze multiple stimulus input evoked response BOLD data. However, to analyze clinical data generated using a repeated measures experimental design, the model has been extended to handle multivariate time series data and demonstrated on control and alcoholic subjects taken from data previously analyzed in the temporal domain. Analysis of BOLD data is typically carried out in the time domain where the data has a high temporal correlation. These analyses generally employ parametric models of the hemodynamic response function (HRF) where prewhitening of the data is attempted using autoregressive (AR) models for the noise. However, this data can be analyzed in the Fourier domain. Here, assumptions made on the noise structure are less restrictive, and hypothesis tests can be constructed based on voxel-specific nonparametric estimates of the hemodynamic transfer function (HRF in the Fourier domain). This is especially important for experimental designs involving multiple states (either stimulus or drug induced) that may alter the form of the response function.
Author	Rio, Daniel E. Gilman, Jodi Woltz, Lawrence A. Hommer, Daniel W. Rawlings, Robert R.
AuthorAffiliation	1 Section of Brain Electrophysiology and Imaging, LCTS, NIAAA, National Institutes of Health, 10 Center Drive, MSC 1540, Bethesda, MD, USA 2 Synergy Research Inc., 12051 Greystone Drive, Monrovia, MD, USA 3 Laboratory of Neuroimaging and Genetics, Martinos Center for Biomedical Imaging, Massachusetts General Hospital, Charlestown, MA, USA
AuthorAffiliation_xml	– name: 3 Laboratory of Neuroimaging and Genetics, Martinos Center for Biomedical Imaging, Massachusetts General Hospital, Charlestown, MA, USA – name: 1 Section of Brain Electrophysiology and Imaging, LCTS, NIAAA, National Institutes of Health, 10 Center Drive, MSC 1540, Bethesda, MD, USA – name: 2 Synergy Research Inc., 12051 Greystone Drive, Monrovia, MD, USA
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Cites_doi	10.1006/nimg.2001.0933 10.1006/nimg.2002.1090 10.1016/j.cmpb.2005.12.003 10.1002/hbm.20253 10.1006/nimg.2002.1053 10.1111/1467-9876.00046 10.1073/pnas.89.12.5675 10.1002/1522-2594(200007)44:1<162::AID-MRM23>3.0.CO;2-E 10.1093/biomet/37.1-2.1 10.1111/j.1530-0277.2009.01095.x 10.1016/j.neuroimage.2011.06.078 10.1016/S1053-8119(03)00435-X 10.1002/hbm.460020402 10.1002/hbm.10141 10.1016/j.neuroimage.2004.08.055 10.1002/hbm.20219 10.1006/nimg.2000.0628 10.1016/j.neuroimage.2011.09.015 10.1007/s00221-010-2277-4 10.1016/j.neuroimage.2008.10.065 10.1002/mrm.1910140108 10.1002/1097-0193(200102)12:2<61::AID-HBM1004>3.0.CO;2-W 10.1155/2009/723912 10.1016/j.neuroimage.2006.09.044 10.1109/MEMB.2006.1607669 10.1006/cbmr.1996.0014 10.4236/jsip.2012.34060 10.1016/j.neuroimage.2008.09.037 10.1016/j.neuroimage.2006.09.032 10.3389/fnhum.2011.00028 10.1006/nimg.2001.0931 10.1073/pnas.89.13.5951 10.1006/nimg.1995.1023 10.1006/nimg.2002.1321
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SubjectTerms	Alcoholism - blood Alcoholism - physiopathology Brain - physiology Computational Biology Evoked Potentials, Visual Fourier Analysis Hemodynamics Humans Image Interpretation, Computer-Assisted Linear Models Magnetic Resonance Imaging - statistics & numerical data Models, Neurological Multivariate Analysis Oxygen - blood Signal-To-Noise Ratio Statistics, Nonparametric
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Title	Development of the Complex General Linear Model in the Fourier Domain : Application to fMRI Multiple Input-Output Evoked Responses for Single Subjects
URI	https://search.emarefa.net/detail/BIM-487738 https://dx.doi.org/10.1155/2013/645043 https://www.ncbi.nlm.nih.gov/pubmed/23840281 https://www.proquest.com/docview/1399506866 https://pubmed.ncbi.nlm.nih.gov/PMC3697143
Volume	2013
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