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NeoRS: A Neonatal Resting State fMRI Data Preprocessing Pipeline

Resting state functional MRI (rsfMRI) has been shown to be a promising tool to study intrinsic brain functional connectivity and assess its integrity in cerebral development. In neonates, where functional MRI is limited to very few paradigms, rsfMRI was shown to be a relevant tool to explore regiona...

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Autores principales: Enguix, Vicente, Kenley, Jeanette, Luck, David, Cohen-Adad, Julien, Lodygensky, Gregory Anton
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9247272/
https://www.ncbi.nlm.nih.gov/pubmed/35784189
http://dx.doi.org/10.3389/fninf.2022.843114
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author Enguix, Vicente
Kenley, Jeanette
Luck, David
Cohen-Adad, Julien
Lodygensky, Gregory Anton
author_facet Enguix, Vicente
Kenley, Jeanette
Luck, David
Cohen-Adad, Julien
Lodygensky, Gregory Anton
author_sort Enguix, Vicente
collection PubMed
description Resting state functional MRI (rsfMRI) has been shown to be a promising tool to study intrinsic brain functional connectivity and assess its integrity in cerebral development. In neonates, where functional MRI is limited to very few paradigms, rsfMRI was shown to be a relevant tool to explore regional interactions of brain networks. However, to identify the resting state networks, data needs to be carefully processed to reduce artifacts compromising the interpretation of results. Because of the non-collaborative nature of the neonates, the differences in brain size and the reversed contrast compared to adults due to myelination, neonates can’t be processed with the existing adult pipelines, as they are not adapted. Therefore, we developed NeoRS, a rsfMRI pipeline for neonates. The pipeline relies on popular neuroimaging tools (FSL, AFNI, and SPM) and is optimized for the neonatal brain. The main processing steps include image registration to an atlas, skull stripping, tissue segmentation, slice timing and head motion correction and regression of confounds which compromise functional data interpretation. To address the specificity of neonatal brain imaging, particular attention was given to registration including neonatal atlas type and parameters, such as brain size variations, and contrast differences compared to adults. Furthermore, head motion was scrutinized, and motion management optimized, as it is a major issue when processing neonatal rsfMRI data. The pipeline includes quality control using visual assessment checkpoints. To assess the effectiveness of NeoRS processing steps we used the neonatal data from the Baby Connectome Project dataset including a total of 10 neonates. NeoRS was designed to work on both multi-band and single-band acquisitions and is applicable on smaller datasets. NeoRS also includes popular functional connectivity analysis features such as seed-to-seed or seed-to-voxel correlations. Language, default mode, dorsal attention, visual, ventral attention, motor and fronto-parietal networks were evaluated. Topology found the different analyzed networks were in agreement with previously published studies in the neonate. NeoRS is coded in Matlab and allows parallel computing to reduce computational times; it is open-source and available on GitHub (https://github.com/venguix/NeoRS). NeoRS allows robust image processing of the neonatal rsfMRI data that can be readily customized to different datasets.
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spelling pubmed-92472722022-07-02 NeoRS: A Neonatal Resting State fMRI Data Preprocessing Pipeline Enguix, Vicente Kenley, Jeanette Luck, David Cohen-Adad, Julien Lodygensky, Gregory Anton Front Neuroinform Neuroscience Resting state functional MRI (rsfMRI) has been shown to be a promising tool to study intrinsic brain functional connectivity and assess its integrity in cerebral development. In neonates, where functional MRI is limited to very few paradigms, rsfMRI was shown to be a relevant tool to explore regional interactions of brain networks. However, to identify the resting state networks, data needs to be carefully processed to reduce artifacts compromising the interpretation of results. Because of the non-collaborative nature of the neonates, the differences in brain size and the reversed contrast compared to adults due to myelination, neonates can’t be processed with the existing adult pipelines, as they are not adapted. Therefore, we developed NeoRS, a rsfMRI pipeline for neonates. The pipeline relies on popular neuroimaging tools (FSL, AFNI, and SPM) and is optimized for the neonatal brain. The main processing steps include image registration to an atlas, skull stripping, tissue segmentation, slice timing and head motion correction and regression of confounds which compromise functional data interpretation. To address the specificity of neonatal brain imaging, particular attention was given to registration including neonatal atlas type and parameters, such as brain size variations, and contrast differences compared to adults. Furthermore, head motion was scrutinized, and motion management optimized, as it is a major issue when processing neonatal rsfMRI data. The pipeline includes quality control using visual assessment checkpoints. To assess the effectiveness of NeoRS processing steps we used the neonatal data from the Baby Connectome Project dataset including a total of 10 neonates. NeoRS was designed to work on both multi-band and single-band acquisitions and is applicable on smaller datasets. NeoRS also includes popular functional connectivity analysis features such as seed-to-seed or seed-to-voxel correlations. Language, default mode, dorsal attention, visual, ventral attention, motor and fronto-parietal networks were evaluated. Topology found the different analyzed networks were in agreement with previously published studies in the neonate. NeoRS is coded in Matlab and allows parallel computing to reduce computational times; it is open-source and available on GitHub (https://github.com/venguix/NeoRS). NeoRS allows robust image processing of the neonatal rsfMRI data that can be readily customized to different datasets. Frontiers Media S.A. 2022-06-17 /pmc/articles/PMC9247272/ /pubmed/35784189 http://dx.doi.org/10.3389/fninf.2022.843114 Text en Copyright © 2022 Enguix, Kenley, Luck, Cohen-Adad and Lodygensky. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neuroscience
Enguix, Vicente
Kenley, Jeanette
Luck, David
Cohen-Adad, Julien
Lodygensky, Gregory Anton
NeoRS: A Neonatal Resting State fMRI Data Preprocessing Pipeline
title NeoRS: A Neonatal Resting State fMRI Data Preprocessing Pipeline
title_full NeoRS: A Neonatal Resting State fMRI Data Preprocessing Pipeline
title_fullStr NeoRS: A Neonatal Resting State fMRI Data Preprocessing Pipeline
title_full_unstemmed NeoRS: A Neonatal Resting State fMRI Data Preprocessing Pipeline
title_short NeoRS: A Neonatal Resting State fMRI Data Preprocessing Pipeline
title_sort neors: a neonatal resting state fmri data preprocessing pipeline
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9247272/
https://www.ncbi.nlm.nih.gov/pubmed/35784189
http://dx.doi.org/10.3389/fninf.2022.843114
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