![]() D., Taylor, P., Gohel, S., Yuan Hsiung, T., & Biswal, B. Neurocognitive Learning Therapy: Theory and Practice. Dorsal and ventral attention systems: Distinct neural circuits but collaborative roles. Review Special Issue: The Connectome- Feature Review, 17(12), 683–696. European Neuropsychopharmacology, 20, 519-534. Exploring the brain network: a review on resting-state fMRI functional connectivity. Fronteirs in Computational Neuroscience, 7, 169. Defining nodes in complex brain networks. Stanley, M., Moussa, M., Paolini, B., Lyday, R., Burdette, J., & Laurienti, P. Annals of the New York Academy of Sciences, 1224, 109–125. Functional network dysfunction in anxiety and anxiety disorders. Slylvester, C., Corbetta, M., Raichle, E., Rodebaugh, T., Schlaggar, B., Sheline, Y., … Lenze, E. The dynamics of functional brain networks: Integrated network states during cognitive task performance. ![]() Primate visual perception: Motivated attention in naturalistic scenes. Functional network organization of the human brain. Power, J., Cohen, A., Nelson, S., Wig, G. The anatomical basis of functional localization in the. Convergence and divergence in a neural architecture for recognition and Memory. Subcortical structures and cognition: Implications for neuropsychological assessment. Artificial neural network biological neural network neuron conceptual model convolutional neural network. The human brain is intrinsically organized into dynamic, anticorrelated functional networks. London, UK: UCL Press Ltd.įox, M., Synder, A., Vincent, J., Corbetta, M., Van Essen, D., & Raichle, M. Mnemonic training reshapes brain networks to support superior memory. Behavioral Brain Science, 36, 634–659.ĭresler, M., Shirer, W., Konrad, B., Muller, N., Wagner, I., Fernandez, G., … Greicius, M. Mnemonic expertise during wakefulness and sleep. Philosophical Transitions B Royal Society London Biological Science, 369(1653), 20130521.ĭresler, M., & Konrad, B. Graph analysis of functional brain networks: Practical issues in translational neuroscience. Nature Reviews Nueuroscience, 3, 201–215.ĭe Vico Falliani, F., Richardi, J., & Chavez, M. Control of goal-directed and stimulus-driven attention in the brain. National Review of Neuroscience, 10(3), 186–198.Ĭorbetta, M., & Shulman, G. Complex brain networks: graph theoretical analysis of structural and functional systems. Neuroscience & Biobehavioral Reviews, 49, 114–125.īullmore, E., & Sporns, O. ![]() The contribution of TMS–EEG coregistration in the exploration of the human cortical connectome. īortoletto, M., Veniero, D., Thut, G., & Miniussi, C. Retrieved from Wikipedia, The Free Encyclopedia from. Estimating large-scale network convergence in the human functional connectome. Distributed circuits, not circumscribed centers, mediate visual recognition. Current Opinion in Neurology, 22(4), 340–347.īehrmann, M., & Plaut, D. Human brain networks in health and disease. ![]() Although networks are typically defined by functional connectivity at rest, regions within a particular network almost always demonstrate synchronous activity during specific cognitive tasks. Each network is conceptualized to implement unique aspects of cognition. In network model, different cognitive tasks elicit increases in activity in different functional networks. These integrative regions are capable of complex and diverse responses that are placed at higher levels within a cortical hierarchy and represent focal points of convergence or divergence of more specialized neural information. Important integrative functions are performed by a specific set of brain regions and their related anatomical connections. Integration of the network components and the networks themselves depends on neural communication among specialized brain regions, unfolding within a network of interregional projections that gives rise to large-scale patterns of synchronization and efficient information flow between the connected elements. Functional networks are collections of brain regions with activity that tends to increase or decrease in concert, both at rest and during cognitive tasks. One of the most major developments in systems neuroscience then has been moved away from a conceptualizing the brain composed of almost autonomous areas of function toward the understanding operate by using functional networks consisting of brain regions recruited in a task-specific manner.
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