Demystifying cognitive flexibility: Implications for clinical and developmental neuroscience
about
Brain network dynamics in high-functioning individuals with autismInability to activate Rac1-dependent forgetting contributes to behavioral inflexibility in mutants of multiple autism-risk genes.Heterogeneity of executive functions among comorbid neurodevelopmental disorders.Ranking Cognitive Flexibility in a Group Setting of Rhesus Monkeys with a Set-Shifting Procedure.Putative Brain Networks Underlying Repetitive Negative Thinking and Comorbid Internalizing Problems in Autism.Interrogating the mouse thalamus to correct human neurodevelopmental disorders.Neural Markers of the Development of Executive Function: Relevance for Education.The neural underpinnings of cognitive flexibility and their disruption in psychotic illness.Cognitive inflexibility in Obsessive-Compulsive Disorder.Chronnectomic patterns and neural flexibility underlie executive function.A FISTful of Emotion: Individual Differences in Trait Anxiety and Cognitive-Affective Flexibility During Preadolescence.CanDiD: A Framework for Linking Executive Function and EducationReversal Learning Deficits Associated with Increased Frontal Cortical Brain-Derived Neurotrophic Factor Tyrosine Kinase B Signaling in a Prenatal Cocaine Exposure Mouse Model.State-dependent variability of dynamic functional connectivity between frontoparietal and default networks relates to cognitive flexibility.Traumatic Life Events in Relation to Cognitive Flexibility: Moderating Role of the BDNF Val66Met Gene Polymorphism.Genetic analysis for cognitive flexibility in the trail-making test in attention deficit hyperactivity disorder patients from single nucleotide polymorphism, gene to pathway level.Apathy is related to reduced activation in cognitive control regions during set-shifting.The Flexibility Scale: Development and Preliminary Validation of a Cognitive Flexibility Measure in Children with Autism Spectrum Disorders.Firing of Putative Dopamine Neurons in Ventral Tegmental Area Is Modulated by Probability of Success during Performance of a Stop-Change Task.Chronic pain impairs cognitive flexibility and engages novel learning strategies in rats.Evidence supporting a role for astrocytes in the regulation of cognitive flexibility and neuronal oscillations through the Ca2+ binding protein S100β.Different Electrophysiological Responses to Informative Value of Feedback Between Children and Adults.Assessing children's cognitive flexibility with the Shape Trail Test.Cognitive Flexibility and Advice Network Centrality: The Moderating Role of Self-MonitoringPrenatal exposure to TiO nanoparticles in mice causes behavioral deficits with relevance to autism spectrum disorder and beyondThe Motivation-Based Promotion of Proactive Control: The Role of Salience Network
P2860
Q33891011-FB68BEDF-CDD7-499D-B625-7CF4A647284BQ37086599-9CC33DD3-660B-4CA3-9C14-BA1FE46253E2Q37402599-8FA564A3-EC10-4E55-8E53-9919467D66BCQ37716756-0B4CE923-9282-48DC-AC82-057F2B38E1D0Q38672170-555A09B1-828A-4073-9D19-05228181A25EQ38812905-E1138F6D-DF33-4C46-B220-A085524A91FDQ38835144-14187F16-ED8A-42BF-B19F-A5394385F18AQ38860355-A38BFE33-E74C-42C7-B048-BE6C4066BCE6Q38918629-291C7240-0619-4F71-A87F-A5CACD09C6C9Q39253239-1D0B9F5E-239E-40B4-A388-7A46D968FE23Q40185134-999DFB04-9E31-40AC-96E5-70AE4ECBEF75Q40999142-E84DD219-67AA-48F6-A02F-2AE0DECB1080Q46002645-4DA845FD-DFDC-4D1A-B0F8-C2D4EE1050E7Q46110346-84C51AEE-55D2-4841-9020-83FE84EE5C7DQ47178597-719294B7-CA48-4DF6-B46A-CF6528B85BE1Q47607689-8D3C43D1-4C2E-4656-AB54-DB32B0D476B2Q48167790-DD1018F4-4939-42D3-B0DD-35479A9A84BDQ50341934-88A0E238-9BB0-48FD-98C9-DC83A113857CQ52311628-F67DE469-9B74-4D46-9D14-5907188963B7Q52631196-8494217D-1AE2-4B42-AF23-C30B5D5F1120Q54953744-9BA8782D-66C4-487A-911F-785215FB6CE3Q55012536-FE42C6C7-3E04-451D-826B-22BAC9C9B6A1Q55164014-47D7EF9F-B60B-4311-A184-B237C033747AQ57817112-B19411E1-FC07-4B31-AC92-06796FF01BD8Q58712277-2350BB77-C453-47CE-946E-C4C57F964954Q58781048-6E547887-CFB1-4F45-8D89-C83B1B06CA93
P2860
Demystifying cognitive flexibility: Implications for clinical and developmental neuroscience
description
2015 nî lūn-bûn
@nan
2015 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Demystifying cognitive flexibi ...... and developmental neuroscience
@ast
Demystifying cognitive flexibi ...... and developmental neuroscience
@en
type
label
Demystifying cognitive flexibi ...... and developmental neuroscience
@ast
Demystifying cognitive flexibi ...... and developmental neuroscience
@en
prefLabel
Demystifying cognitive flexibi ...... and developmental neuroscience
@ast
Demystifying cognitive flexibi ...... and developmental neuroscience
@en
P2860
P1476
Demystifying cognitive flexibi ...... and developmental neuroscience
@en
P2093
Dina R Dajani
P2860
P304
P356
10.1016/J.TINS.2015.07.003
P577
2015-09-01T00:00:00Z