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Shaped by the Past: The Default Mode Network Supports Cognition that Is Independent of Immediate Perceptual InputPreclinical Magnetic Resonance Imaging and Spectroscopy Studies of Memory, Aging, and Cognitive DeclineA New Perspective on Delusional States - Evidence for Claustrum Involvement.Considerations for resting state functional MRI and functional connectivity studies in rodentsMultisensory maps in parietal cortexUnderstanding brain networks and brain organizationA brief history of the resting state: the Washington University perspectiveThe future of future-oriented cognition in non-humans: theory and the empirical case of the great apesCan sliding-window correlations reveal dynamic functional connectivity in resting-state fMRI?Face Patch Resting State Networks Link Face Processing to Social CognitionComparative Overview of Visuospatial Working Memory in Monkeys and RatsCharacterization of Structural Connectivity of the Default Mode Network in Dogs using Diffusion Tensor ImagingLanguage and thought are not the same thing: evidence from neuroimaging and neurological patientsFrom Anomalies to Essential Scientific Revolution? Intrinsic Brain Activity in the Light of Kuhn's Philosophy of Science.Variation of the default mode network with altered alertness levels induced by propofol.Homologous involvement of striatum and prefrontal cortex in rodent and human water maze learning.Dynamic functional connectivity: promise, issues, and interpretationsDirect, intraoperative observation of ~0.1 Hz hemodynamic oscillations in awake human cortex: implications for fMRI.Increased Visual Stimulation Systematically Decreases Activity in Lateral Intermediate CortexEchoes of the Brain: Local-Scale Representation of Whole-Brain Functional Networks within Transmodal Cortex.Imaging structural and functional brain networks in temporal lobe epilepsy.Functional magnetic resonance imaging of intrinsic brain networks for translational drug discoveryResearch review: Functional brain connectivity and child psychopathology--overview and methodological considerations for investigators new to the field.Virtual water maze learning in human increases functional connectivity between posterior hippocampus and dorsal caudate.Functional network alterations and their structural substrate in drug-resistant epilepsyThe effects of chronic alcohol self-administration in nonhuman primate brain networks.Effective Connectivity within the Default Mode Network: Dynamic Causal Modeling of Resting-State fMRI DataNeuroimaging-Based Phenotyping of the Autism Spectrum.Noise and non-neuronal contributions to the BOLD signal: applications to and insights from animal studies.Claustrum projections to prefrontal cortex in the capuchin monkey (Cebus apella)Hippocampal network connections account for differences in memory performance in the middle-aged rhesus monkey.The rich get richer: brain injury elicits hyperconnectivity in core subnetworks.Altered brain long-range functional interactions underlying the link between aberrant self-experience and self-other relationship in first-episode schizophrenia.Monkey in the middle: why non-human primates are needed to bridge the gap in resting-state investigationsResting state networks' corticotopy: the dual intertwined rings architectureThe human brain encodes event frequencies while forming subjective beliefsComparative analysis of the macroscale structural connectivity in the macaque and human brain.Essential functions of primate frontopolar cortex in cognitionRat brains also have a default mode network.Behavioral consequences of selective damage to frontal pole and posterior cingulate cortices.
P2860
Q25471627-06C6D602-8E62-488C-B0B3-96969AF3BC69Q26741139-8650875F-3A52-4690-B334-42163306CC88Q26776159-DDD0F24C-8CD2-487F-81E6-9CEF28A93779Q26795539-73E7648D-4DD7-454A-A4C1-B88718955A3EQ26853191-42B86807-92E7-4A61-BF46-729D93413FB3Q26864425-CE6F4353-3C61-44F3-8B59-1CD2B34B4B4DQ27009153-DEBE1EE8-AEEB-4F50-B870-3CF6247D8084Q27026816-343E57CD-D7E7-4A6F-B1DB-17D84F25B851Q27306723-EB15722A-C6D4-4703-A36E-B9604C2E3057Q27346874-0403F44A-22F9-4375-B878-B5A9D2D06F3AQ28079885-0BC07C3E-3DDA-414C-89B5-FCBAEFAF336EQ28593241-3A2476EC-A3F8-4D55-A273-72CBFFA8FC44Q30387130-7A7600F1-AE8A-4C33-97A7-2EFFF1B98616Q30399905-A8104D13-DDBC-4952-BC6E-24475DEAD00FQ30400545-77E5CA67-E1A5-41E3-846B-D80322265894Q30536563-0250DBCB-518F-4B5F-A73E-ED822317BC90Q30554308-939FBDF2-A234-4491-9F5E-D632FE426B6CQ30574455-9E0C8DF5-0F71-43C4-958F-936335DA9EE4Q30665807-008A4946-5584-4E90-A117-C3181611DC38Q30666069-2301F08B-B97C-4599-A60A-0F496BDD199FQ30671564-40CB9EEA-3CF7-44CC-9922-5D31055C6E9AQ30829551-BF02A46E-7938-45CB-AFEC-7D058FAD42ACQ30859312-C17E7443-E0CF-4951-87EB-9AEF2E2AF49FQ30871173-673C36D3-BADC-483E-ABE8-A224BAF765F1Q30883108-72FC0E97-42E4-48C1-AC44-3D104DD9C936Q30921396-C7F6A26A-30B5-49A3-8844-4B57C192BB28Q31044584-D92A2323-D0AA-4659-AB7C-E40521362750Q31053462-CD388513-4C16-4E61-8A9C-01A57B6CA2AEQ31151269-696EFC10-D9CA-46C0-8505-AAE5E52A9867Q33839471-5EC2DDAF-5AEF-479B-81F2-61B23F28F3BFQ33964397-BAF9063B-ACB3-4DC2-A37B-7F24D9502234Q34046552-2849F0D8-EFE5-40F0-87B9-3C78D2B87CDCQ34048603-91F2F721-6BB4-4BB9-BFA0-7F7DE0C2A2D8Q34362376-D142D546-7468-4942-8E07-1511626508D1Q34872459-32A3EE2A-FA66-4F82-BB3C-98D11B473371Q34951989-3BC768F0-6EC5-48D6-AAEB-0E08C62B7EE7Q35133647-671CB839-A1EA-4094-851C-54043ACCCA5DQ35156836-F575C573-1F24-4E4A-BDF0-1E02AD4A4B8EQ35844898-C29C7E30-E421-4B60-932B-60D227713095Q35895516-21B973E4-4057-4537-B14E-704A7E63D4A9
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Default mode of brain function in monkeys.
@ast
Default mode of brain function in monkeys.
@de
Default mode of brain function in monkeys.
@en
Default mode of brain function in monkeys.
@nl
type
label
Default mode of brain function in monkeys.
@ast
Default mode of brain function in monkeys.
@de
Default mode of brain function in monkeys.
@en
Default mode of brain function in monkeys.
@nl
prefLabel
Default mode of brain function in monkeys.
@ast
Default mode of brain function in monkeys.
@de
Default mode of brain function in monkeys.
@en
Default mode of brain function in monkeys.
@nl
P2093
P2860
P50
P1476
Default mode of brain function in monkeys.
@en
P2093
Annelis Gerits
Hiromasa Sawamura
Koen Nelissen
Luciano Simone
P2860
P304
12954-12962
P356
10.1523/JNEUROSCI.2318-11.2011
P407
P50
P577
2011-09-01T00:00:00Z