Brain Functional Networks in the Developing Brain Using Resting BOLD
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Dinggang Shen | John H. Gilmore | Weili Lin | Kelly S. Giovanello | J. K. Smith | Hongtu Zhou | Wei Gao | J. Keith Smith | J. Gilmore | Weili Lin | D. Shen | Wei Gao | K. Giovanello | H. Zhou | J. Smith | J. Smith
[1] S. Ogawa,et al. Oxygenation‐sensitive contrast in magnetic resonance image of rodent brain at high magnetic fields , 1990, Magnetic resonance in medicine.
[2] D. Margulies,et al. Development of anterior cingulate functional connectivity from late childhood to early adulthood. , 2009, Cerebral cortex.
[3] N. Tzourio-Mazoyer,et al. Automated Anatomical Labeling of Activations in SPM Using a Macroscopic Anatomical Parcellation of the MNI MRI Single-Subject Brain , 2002, NeuroImage.
[4] Vinod Menon,et al. Functional connectivity in the resting brain: A network analysis of the default mode hypothesis , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[5] I. Fried,et al. Interhemispheric correlations of slow spontaneous neuronal fluctuations revealed in human sensory cortex , 2008, Nature Neuroscience.
[6] Wei Gao,et al. Frontal parietal control network regulates the anti‐correlated default and dorsal attention networks , 2012, Human brain mapping.
[7] A. Decasper,et al. Of Human Bonding: Newborns Prefer Their Mothers' Voices , 1980 .
[8] S. Petersen,et al. Control networks in paediatric Tourette syndrome show immature and anomalous patterns of functional connectivity , 2008, Brain : a journal of neurology.
[9] M. Lowe,et al. Functional Connectivity in Single and Multislice Echoplanar Imaging Using Resting-State Fluctuations , 1998, NeuroImage.
[10] D. Schacter,et al. The Brain's Default Network , 2008, Annals of the New York Academy of Sciences.
[11] Vince D. Calhoun,et al. A method for functional network connectivity among spatially independent resting-state components in schizophrenia , 2008, NeuroImage.
[12] A. Snyder,et al. Longitudinal analysis of neural network development in preterm infants. , 2010, Cerebral cortex.
[13] G Kolata. Studying learning in the womb. , 1984, Science.
[14] S. Rombouts,et al. Consistent resting-state networks across healthy subjects , 2006, Proceedings of the National Academy of Sciences.
[15] Rainer Goebel,et al. Classification of fMRI independent components using IC-fingerprints and support vector machine classifiers , 2007, NeuroImage.
[16] H. Lagercrantz,et al. The functional architecture of the infant brain as revealed by resting-state fMRI. , 2011, Cerebral cortex.
[17] C. Lord,et al. Aberrant Striatal Functional Connectivity in Children with Autism , 2011, Biological Psychiatry.
[18] M E J Newman,et al. Modularity and community structure in networks. , 2006, Proceedings of the National Academy of Sciences of the United States of America.
[19] D. Louis Collins,et al. Automatic 3‐D model‐based neuroanatomical segmentation , 1995 .
[20] Philip Asherson,et al. Genetic influences on attention deficit hyperactivity disorder symptoms from age 2 to 3: A quantitative and molecular genetic investigation , 2010, BMC psychiatry.
[21] Catie Chang,et al. Time–frequency dynamics of resting-state brain connectivity measured with fMRI , 2010, NeuroImage.
[22] E. Bullmore,et al. A Resilient, Low-Frequency, Small-World Human Brain Functional Network with Highly Connected Association Cortical Hubs , 2006, The Journal of Neuroscience.
[23] S. Petersen,et al. The maturing architecture of the brain's default network , 2008, Proceedings of the National Academy of Sciences.
[24] J K Smith,et al. Functional Connectivity MR Imaging Reveals Cortical Functional Connectivity in the Developing Brain , 2008, American Journal of Neuroradiology.
[25] B. Rosen,et al. Functional mapping of the human visual cortex by magnetic resonance imaging. , 1991, Science.
[26] Jian Wang,et al. Changes of Brain Structure and Function in ADHD Children , 2011, Brain Topography.
[27] Conor Liston,et al. Atypical Prefrontal Connectivity in Attention-Deficit/Hyperactivity Disorder: Pathway to Disease or Pathological End Point? , 2011, Biological Psychiatry.
[28] Archana Venkataraman,et al. Intrinsic functional connectivity as a tool for human connectomics: theory, properties, and optimization. , 2010, Journal of neurophysiology.
[29] Xi-Nian Zuo,et al. Fronto-Temporal Spontaneous Resting State Functional Connectivity in Pediatric Bipolar Disorder , 2010, Biological Psychiatry.
[30] Mark H. Johnson. Functional brain development in humans , 2001, Nature Reviews Neuroscience.
[31] G L Shulman,et al. INAUGURAL ARTICLE by a Recently Elected Academy Member:A default mode of brain function , 2001 .
[32] N. Logothetis,et al. Neurophysiological investigation of the basis of the fMRI signal , 2001, Nature.
[33] B. Miller,et al. Neurodegenerative Diseases Target Large-Scale Human Brain Networks , 2009, Neuron.
[34] S. Dehaene,et al. Functional Neuroimaging of Speech Perception in Infants , 2002, Science.
[35] B. Biswal,et al. Functional connectivity in the motor cortex of resting human brain using echo‐planar mri , 1995, Magnetic resonance in medicine.
[36] Kevin Murphy,et al. The impact of global signal regression on resting state correlations: Are anti-correlated networks introduced? , 2009, NeuroImage.
[37] Yong He,et al. Disrupted small-world networks in schizophrenia. , 2008, Brain : a journal of neurology.
[38] B. Peterson,et al. Normal Development of Brain Circuits , 2010, Neuropsychopharmacology.
[39] N. Logothetis. The Underpinnings of the BOLD Functional Magnetic Resonance Imaging Signal , 2003, The Journal of Neuroscience.
[40] Edward T. Bullmore,et al. Network Scaling Effects in Graph Analytic Studies of Human Resting-State fMRI Data , 2010, Front. Syst. Neurosci..
[41] R. Fivush,et al. Knowing and remembering in young children , 1992 .
[42] S Clare,et al. Fetal brain activity demonstrated by functional magnetic resonance imaging , 1999, The Lancet.
[43] Christian Windischberger,et al. Toward discovery science of human brain function , 2010, Proceedings of the National Academy of Sciences.
[44] Egill Rostrup,et al. Change of visually induced cortical activation patterns during development , 1996, The Lancet.
[45] J. Maldjian,et al. Effect of resting-state functional MR imaging duration on stability of graph theory metrics of brain network connectivity. , 2011, Radiology.
[46] Mark H. Johnson,et al. Functional brain development in infants: elements of an interactive specialization framework. , 2000, Child development.
[47] J K Smith,et al. Temporal and Spatial Development of Axonal Maturation and Myelination of White Matter in the Developing Brain , 2008, American Journal of Neuroradiology.
[48] M. Mintun,et al. Brain work and brain imaging. , 2006, Annual review of neuroscience.
[49] M. Greicius,et al. Default-Mode Activity during a Passive Sensory Task: Uncoupled from Deactivation but Impacting Activation , 2004, Journal of Cognitive Neuroscience.
[50] Deepti R. Bathula,et al. Atypical Default Network Connectivity in Youth with Attention-Deficit/Hyperactivity Disorder , 2010, Biological Psychiatry.
[51] Egill Rostrup,et al. Visual Activation in Infants and Young Children Studied by Functional Magnetic Resonance Imaging , 1998, Pediatric Research.
[52] Habib Benali,et al. CORSICA: correction of structured noise in fMRI by automatic identification of ICA components. , 2007, Magnetic resonance imaging.
[53] Liang Wang,et al. Parcellation‐dependent small‐world brain functional networks: A resting‐state fMRI study , 2009, Human brain mapping.
[54] Benjamin J. Shannon,et al. Coherent spontaneous activity identifies a hippocampal-parietal memory network. , 2006, Journal of neurophysiology.
[55] Dinggang Shen,et al. Evidence on the emergence of the brain's default network from 2-week-old to 2-year-old healthy pediatric subjects , 2009, Proceedings of the National Academy of Sciences.
[56] R. S. Hinks,et al. Time course EPI of human brain function during task activation , 1992, Magnetic resonance in medicine.
[57] Lori Markson,et al. Two-year-olds' sensitivity to speakers' intent: an alternative account of Samuelson and Smith. , 2004, Developmental science.
[58] Justin L. Vincent,et al. Spontaneous neuronal activity distinguishes human dorsal and ventral attention systems. , 2006, Proceedings of the National Academy of Sciences of the United States of America.
[59] U. Brandes. A faster algorithm for betweenness centrality , 2001 .
[60] E. Bullmore,et al. Neurophysiological architecture of functional magnetic resonance images of human brain. , 2005, Cerebral cortex.
[61] Jonathan D. Power,et al. Functional Brain Networks Develop from a “Local to Distributed” Organization , 2009, PLoS Comput. Biol..
[62] Edward T. Bullmore,et al. Efficiency and Cost of Economical Brain Functional Networks , 2007, PLoS Comput. Biol..
[63] R. Buckner,et al. Opinion TRENDS in Cognitive Sciences Vol.11 No.2 Self-projection and the brain , 2022 .
[64] Michael Tomasello,et al. The social nature of words and word learning , 2000 .
[65] B. Amsterdam,et al. Mirror self-image reactions before age two. , 1972, Developmental psychobiology.
[66] A. Kramer,et al. Changes in executive control across the life span: examination of task-switching performance. , 2001, Developmental psychology.
[67] Rebecca D Folkerth,et al. Axonal development in the cerebral white matter of the human fetus and infant , 2005, The Journal of comparative neurology.
[68] R. Buckner,et al. Functional-Anatomic Fractionation of the Brain's Default Network , 2010, Neuron.
[69] M. Corbetta,et al. Common Blood Flow Changes across Visual Tasks: II. Decreases in Cerebral Cortex , 1997, Journal of Cognitive Neuroscience.
[70] J C Gore,et al. Neonatal auditory activation detected by functional magnetic resonance imaging. , 2001, Magnetic resonance imaging.
[71] O. Sporns,et al. Complex brain networks: graph theoretical analysis of structural and functional systems , 2009, Nature Reviews Neuroscience.
[72] M. Tomasello,et al. Eighteen-month-old children learn words in non-ostensive contexts , 1996, Journal of Child Language.
[73] D. Leopold,et al. Neuronal correlates of spontaneous fluctuations in fMRI signals in monkey visual cortex: Implications for functional connectivity at rest , 2008, Human brain mapping.
[74] Kaustubh Supekar,et al. Development of Large-Scale Functional Brain Networks in Children , 2009, NeuroImage.
[75] V Latora,et al. Efficient behavior of small-world networks. , 2001, Physical review letters.
[76] M P Young,et al. Anatomical connectivity defines the organization of clusters of cortical areas in the macaque monkey and the cat. , 2000, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[77] Duncan J. Watts,et al. Collective dynamics of ‘small-world’ networks , 1998, Nature.
[78] J. Pekar,et al. On the relationship between seed‐based and ICA‐based measures of functional connectivity , 2011, Magnetic resonance in medicine.
[79] G. Shulman,et al. Medial prefrontal cortex and self-referential mental activity: Relation to a default mode of brain function , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[80] Joseph Biederman,et al. Neurobiology of attention-deficit hyperactivity disorder , 1998, Biological Psychiatry.
[81] Peter Fransson,et al. Resting-state networks in the infant brain , 2007, Proceedings of the National Academy of Sciences.
[82] M. Fox,et al. The global signal and observed anticorrelated resting state brain networks. , 2009, Journal of neurophysiology.
[83] B. Biswal,et al. Network homogeneity reveals decreased integrity of default-mode network in ADHD , 2008, Journal of Neuroscience Methods.
[84] Albert,et al. Emergence of scaling in random networks , 1999, Science.
[85] Justin L. Vincent,et al. Evidence for a frontoparietal control system revealed by intrinsic functional connectivity. , 2008, Journal of neurophysiology.
[86] P. L. Williams,et al. Postvaccinial Perivenous Encephalitis , 1960, Neurology.
[87] M. Raichle,et al. Searching for a baseline: Functional imaging and the resting human brain , 2001, Nature Reviews Neuroscience.
[88] Wei Gao,et al. Multivariate Network-Level Approach to Detect Interactions between Large-Scale Functional Systems , 2010, MICCAI.
[89] Stephen M. Smith,et al. Multiplexed Echo Planar Imaging for Sub-Second Whole Brain FMRI and Fast Diffusion Imaging , 2010, PloS one.
[90] Arthur W. Toga,et al. Automatic independent component labeling for artifact removal in fMRI , 2008, NeuroImage.
[91] Biyu J. He,et al. Electrophysiological correlates of the brain's intrinsic large-scale functional architecture , 2008, Proceedings of the National Academy of Sciences.
[92] Gabriele Lohmann,et al. The parcellation of cortical areas using replicator dynamics in fMRI , 2006, NeuroImage.
[93] Timothy M. D. Ebbels,et al. springScape: visualisation of microarray and contextual bioinformatic data using spring embedding and an "information landscape" , 2006, ISMB.
[94] M. Greicius,et al. Default-mode network activity distinguishes Alzheimer's disease from healthy aging: Evidence from functional MRI , 2004, Proc. Natl. Acad. Sci. USA.
[95] Jonathan Fulford,et al. Fetal brain activity in response to a visual stimulus , 2003, Human brain mapping.