A DTI-based template-free cortical connectome study of brain maturation.

A DTI-based template-free cortical connectome study of brain maturation.

Improved understanding of how the human brain is "wired" on a macroscale may now be possible due to the emerging field of MRI connectomics. However, mapping the rapidly developing infant brain networks poses challenges. In this study, we applied an automated template-free "baby connec...

Full description

Bibliographic Details
Main Authors: Olga Tymofiyeva, Christopher P Hess, Etay Ziv, Patricia N Lee, Hannah C Glass, Donna M Ferriero, A James Barkovich, Duan Xu
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3652871?pdf=render
id doaj-b2bc5ae1b2144ea1bf47e5ae95e29037
record_format Article
spelling doaj-b2bc5ae1b2144ea1bf47e5ae95e290372020-11-24T22:03:22ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0185e6331010.1371/journal.pone.0063310A DTI-based template-free cortical connectome study of brain maturation.Olga TymofiyevaChristopher P HessEtay ZivPatricia N LeeHannah C GlassDonna M FerrieroA James BarkovichDuan XuImproved understanding of how the human brain is "wired" on a macroscale may now be possible due to the emerging field of MRI connectomics. However, mapping the rapidly developing infant brain networks poses challenges. In this study, we applied an automated template-free "baby connectome" framework using diffusion MRI to non-invasively map the structural brain networks in subjects of different ages, including premature neonates, term-born neonates, six-month-old infants, and adults. We observed increasing brain network integration and decreasing segregation with age in term-born subjects. We also explored how the equal area nodes can be grouped into modules without any prior anatomical information--an important step toward a fully network-driven registration and analysis of brain connectivity.http://europepmc.org/articles/PMC3652871?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Olga Tymofiyeva
Christopher P Hess
Etay Ziv
Patricia N Lee
Hannah C Glass
Donna M Ferriero
A James Barkovich
Duan Xu
spellingShingle Olga Tymofiyeva
Christopher P Hess
Etay Ziv
Patricia N Lee
Hannah C Glass
Donna M Ferriero
A James Barkovich
Duan Xu
A DTI-based template-free cortical connectome study of brain maturation.
PLoS ONE
author_facet Olga Tymofiyeva
Christopher P Hess
Etay Ziv
Patricia N Lee
Hannah C Glass
Donna M Ferriero
A James Barkovich
Duan Xu
author_sort Olga Tymofiyeva
title A DTI-based template-free cortical connectome study of brain maturation.
title_short A DTI-based template-free cortical connectome study of brain maturation.
title_full A DTI-based template-free cortical connectome study of brain maturation.
title_fullStr A DTI-based template-free cortical connectome study of brain maturation.
title_full_unstemmed A DTI-based template-free cortical connectome study of brain maturation.
title_sort dti-based template-free cortical connectome study of brain maturation.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Improved understanding of how the human brain is "wired" on a macroscale may now be possible due to the emerging field of MRI connectomics. However, mapping the rapidly developing infant brain networks poses challenges. In this study, we applied an automated template-free "baby connectome" framework using diffusion MRI to non-invasively map the structural brain networks in subjects of different ages, including premature neonates, term-born neonates, six-month-old infants, and adults. We observed increasing brain network integration and decreasing segregation with age in term-born subjects. We also explored how the equal area nodes can be grouped into modules without any prior anatomical information--an important step toward a fully network-driven registration and analysis of brain connectivity.
url http://europepmc.org/articles/PMC3652871?pdf=render
work_keys_str_mv AT olgatymofiyeva adtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT christopherphess adtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT etayziv adtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT patricianlee adtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT hannahcglass adtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT donnamferriero adtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT ajamesbarkovich adtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT duanxu adtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT olgatymofiyeva dtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT christopherphess dtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT etayziv dtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT patricianlee dtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT hannahcglass dtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT donnamferriero dtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT ajamesbarkovich dtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
AT duanxu dtibasedtemplatefreecorticalconnectomestudyofbrainmaturation
_version_ 1725831808975634432

Similar Items