Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
about
Neurodevelopment and executive function in autismMaturational changes in anterior cingulate and frontoparietal recruitment support the development of error processing and inhibitory controlImmaturities in reward processing and its influence on inhibitory control in adolescenceNormal development of brain circuitsAdolescent maturity and the brain: the promise and pitfalls of neuroscience research in adolescent health policyFunctional disturbances within frontostriatal circuits across multiple childhood psychopathologiesThe adolescent brainDesperately driven and no brakes: developmental stress exposure and subsequent risk for substance abuseEvidence for a pure time perception deficit in children with ADHDWhite matter development in adolescence: a DTI studyMaturation of cognitive processes from late childhood to adulthoodInfluence of stimulant medication and response speed on lateralization of movement-related potentials in attention-deficit/hyperactivity disorderDevelopment of cortical asymmetry in typically developing children and its disruption in attention-deficit/hyperactivity disorder.Prechemotherapy differences in response inhibition in breast cancer patients compared to controls: A functional magnetic resonance imaging studyDrug addiction and its underlying neurobiological basis: neuroimaging evidence for the involvement of the frontal cortex.Reward processing deficits and impulsivity in high-risk offspring of alcoholics: A study of event-related potentials during a monetary gambling task.Deficient Event-Related Theta Oscillations in Individuals at Risk for Alcoholism: A Study of Reward Processing and Impulsivity Features.Temporal processing in schizophrenia: effects of task-difficulty on behavioral discrimination and neuronal responsesA neural model of voluntary and automatic emotion regulation: implications for understanding the pathophysiology and neurodevelopment of bipolar disorder.Why do many psychiatric disorders emerge during adolescence?How grossed out are you? The neural bases of emotion regulation from childhood to adolescence.An independent components and functional connectivity analysis of resting state fMRI data points to neural network dysregulation in adult ADHD.Networks involved in olfaction and their dynamics using independent component analysis and unified structural equation modeling.Annotation: Development of facial expression recognition from childhood to adolescence: behavioural and neurological perspectives.Is there evidence for neural compensation in attention deficit hyperactivity disorder? A review of the functional neuroimaging literatureThe endophenotype of impulsivity: reaching consilience through behavioral, genetic, and neuroimaging approaches.Integrating evidence from neuroimaging and neuropsychological studies of obsessive-compulsive disorder: the orbitofronto-striatal model revisited.Neuroimaging studies of normal brain development and their relevance for understanding childhood neuropsychiatric disorders.What has fMRI told us about the development of cognitive control through adolescence?The storm and stress of adolescence: insights from human imaging and mouse geneticsDysfunction and Dysconnection in Cortical-Striatal Networks during Sustained Attention: Genetic Risk for Schizophrenia or Bipolar Disorder and its Impact on Brain Network Function.A preliminary study of the neural mechanisms of frustration in pediatric bipolar disorder using magnetoencephalography.The development of performance-monitoring function in the posterior medial frontal cortexDevelopmental trajectories during adolescence in males and females: a cross-species understanding of underlying brain changes.Cognitive control in adolescence: neural underpinnings and relation to self-report behaviors.A neurogenetic approach to impulsivityNeural substrates of impaired sensorimotor timing in adult attention-deficit/hyperactivity disorderAdolescents at risk for alcohol abuse demonstrate altered frontal lobe activation during Stroop performance.Neural basis of protracted developmental changes in visuo-spatial working memory.Development of impulse control circuitry in children of alcoholics
P2860
Q22251373-77D2D2D2-0C18-462B-9DA5-5E24218C3929Q23891132-EC10B1F6-9F29-4D17-89FF-77F9739F40F1Q23891136-F3AD5323-E347-4937-B585-F3F4AD986B69Q24602936-FA2AB7DC-390F-4205-905A-F36BD3945BB2Q24628419-D01F3682-C102-4A22-A104-99D6679F5422Q24645402-3605181C-02D1-41AA-8D13-216B79D2CD14Q24647935-3F26AB0D-6886-4887-9CD5-D7D585E1A425Q24653305-57FCB2EF-29B3-42EF-A35A-E3EC89FEA195Q28198085-B1BFDB37-B672-48C9-A4BF-FBE34057B1D1Q28269442-C8F5FB5F-74D0-4C95-A87A-822B0647C3B7Q28282268-E6DBFFCA-F6C4-4C0C-8C12-2017D0167F6BQ28728455-D529F664-F93D-47CD-A2B1-14798666AB90Q28749057-7467FA07-7AF2-4A4D-A841-7FFE38B31EBAQ29395298-AF83E50E-9B09-4B2A-8CEB-FBCFB6F2DDC5Q29619998-ACF3E8FF-F88A-46DE-AE3C-F1622CBBE25DQ30381900-AFAA936B-1207-4E06-9F84-8A0673186C47Q30397990-B814ED49-353D-4496-9FAC-21CB7A19503DQ30434564-BD28464A-1234-4ECE-9DF1-30C5B9E7CE15Q30486593-7B7AACE3-5F48-4D14-A36A-EFD5AFFCCEEAQ30491002-83336E8D-97B1-4F09-96EE-88F2083C928CQ30501044-25A9516B-23DA-4C6A-8A68-0E67D4368746Q30590119-FB777512-4056-4F97-910F-8FD53C8AA27AQ30663466-173F611C-908F-4FA3-9F15-0DBF328521AAQ30955051-501A0D26-B821-4865-A4C5-89C0655438C8Q31032978-EB4D628B-22B8-49DF-B1E6-65A80BBEF3D1Q31035912-93E57C25-1E0F-454C-AA97-387193E3F7D3Q31139048-EFE4F2EF-5897-4E42-B211-A16BA2E85553Q33373643-F65A7B8D-93E9-4A55-95A0-85BBD4F7776FQ33504975-3C65138D-37E3-4257-B140-B25B7471ED30Q33539876-E1B03349-9BF1-4DC4-9625-D3868ADF4176Q33620153-9F301409-F642-4525-B255-02CD4A066F74Q33737402-6106E984-3AA2-4D89-AA0D-E75DD5374FACQ33756954-8EDA54BC-52BB-497D-AAAB-5143CDD83692Q33907518-579C0EEE-18A9-4A80-871B-D61EAAF0FE63Q33955121-AC4B53A7-B92F-4F83-AE0E-51E8DEE55838Q34035619-6207CC3A-D30B-4822-975A-9CC619D1C5EEQ34048927-B5C7B547-3640-4669-B475-AEE485A0F190Q34149514-1EE20F7D-C42C-49AA-9C0E-AC873F42C047Q34150562-EE41B6FE-5206-4F84-A2C3-1ABFE7B64B83Q34178013-01440CEC-2B33-4C2E-A934-CAC1E30CDD2C
P2860
Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
@en
Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
@nl
type
label
Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
@en
Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
@nl
prefLabel
Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
@en
Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
@nl
P2093
P1476
Functional frontalisation with age: mapping neurodevelopmental trajectories with fMRI.
@en
P2093
P356
10.1016/S0149-7634(99)00055-X
P577
2000-01-01T00:00:00Z