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Reconfiguration of Brain Network Architectures between Resting-State and Complexity-Dependent Cognitive Reasoning.
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The Segregation and Integration of Distinct Brain Networks and Their Relationship to Cognition.
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Increased cognitive complexity reveals abnormal brain network activity in individuals with corpus callosum dysgenesis.
Neuroimage Clin. 2019;21:101595. doi: 10.1016/j.nicl.2018.11.005. Epub 2018 Nov 14.
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Interactions between default mode and control networks as a function of increasing cognitive reasoning complexity.
Hum Brain Mapp. 2015 Jul;36(7):2719-31. doi: 10.1002/hbm.22802. Epub 2015 Apr 2.
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Aging relates to a disproportionately weaker functional architecture of brain networks during rest and task states.
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Functional reconfiguration of task-active frontoparietal control network facilitates abstract reasoning.
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Functional connectivity of intrinsic cognitive networks during resting state and task performance in preadolescent children.
PLoS One. 2018 Oct 17;13(10):e0205690. doi: 10.1371/journal.pone.0205690. eCollection 2018.
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Trajectories of brain system maturation from childhood to older adulthood: Implications for lifespan cognitive functioning.
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Effects of task complexity and age-differences on task-related functional connectivity of attentional networks.
Neuropsychologia. 2018 Jun;114:50-64. doi: 10.1016/j.neuropsychologia.2018.04.013. Epub 2018 Apr 12.
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Large-scale intrinsic connectivity is consistent across varying task demands.
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Endogenous preparatory control is associated with increased interaction between default mode and dorsal attention networks.
Imaging Neurosci (Camb). 2024 Apr 8;2. doi: 10.1162/imag_a_00124. eCollection 2024.
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Intellectual ability and cortical homotopy development in children and adolescents.
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Exploring Brain Activity in Different Mental Cognitive Workloads.
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Improved whole-brain reconfiguration efficiency reveals mechanisms of speech rehabilitation in cleft lip and palate patients: an fMRI study.
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Targeted Time-Varying Functional Connectivity.
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1
Brain Modularity Mediates the Relation between Task Complexity and Performance.
J Cogn Neurosci. 2017 Sep;29(9):1532-1546. doi: 10.1162/jocn_a_01142. Epub 2017 May 4.
2
The Human Thalamus Is an Integrative Hub for Functional Brain Networks.
J Neurosci. 2017 Jun 7;37(23):5594-5607. doi: 10.1523/JNEUROSCI.0067-17.2017. Epub 2017 Apr 27.
3
Neural decoding of visual stimuli varies with fluctuations in global network efficiency.
Hum Brain Mapp. 2017 Jun;38(6):3069-3080. doi: 10.1002/hbm.23574. Epub 2017 Mar 25.
4
Benchmarking of participant-level confound regression strategies for the control of motion artifact in studies of functional connectivity.
Neuroimage. 2017 Jul 1;154:174-187. doi: 10.1016/j.neuroimage.2017.03.020. Epub 2017 Mar 14.
5
Episodic Memory Retrieval Benefits from a Less Modular Brain Network Organization.
J Neurosci. 2017 Mar 29;37(13):3523-3531. doi: 10.1523/JNEUROSCI.2509-16.2017. Epub 2017 Feb 27.
6
From connectome to cognition: The search for mechanism in human functional brain networks.
Neuroimage. 2017 Oct 15;160:124-139. doi: 10.1016/j.neuroimage.2017.01.060. Epub 2017 Jan 26.
7
Correspondence between evoked and intrinsic functional brain network configurations.
Hum Brain Mapp. 2017 Apr;38(4):1992-2007. doi: 10.1002/hbm.23500. Epub 2017 Jan 4.
8
Methods for cleaning the BOLD fMRI signal.
Neuroimage. 2017 Jul 1;154:128-149. doi: 10.1016/j.neuroimage.2016.12.018. Epub 2016 Dec 9.
9
The Segregation and Integration of Distinct Brain Networks and Their Relationship to Cognition.
J Neurosci. 2016 Nov 30;36(48):12083-12094. doi: 10.1523/JNEUROSCI.2965-15.2016.
10
Activity flow over resting-state networks shapes cognitive task activations.
Nat Neurosci. 2016 Dec;19(12):1718-1726. doi: 10.1038/nn.4406. Epub 2016 Oct 10.

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