Cognitive neuroscience of attention deficit hyperactivity disorder and hyperkinetic disorder.
about
A review of modafinil film-coated tablets for attention-deficit/hyperactivity disorder in children and adolescentsToward developmental models of psychiatric disorders in zebrafishAbsence of dopamine D4 receptors results in enhanced reactivity to unconditioned, but not conditioned, fearAn information theory account of cognitive controlHyperactivity and impaired response habituation in hyperdopaminergic mice.Perinatal caffeine, acting on maternal adenosine A(1) receptors, causes long-lasting behavioral changes in mouse offspring.Delay aversion but preference for large and rare rewards in two choice tasks: implications for the measurement of self-control parameters.Converging methods in studying attention-deficit/hyperactivity disorder: what can we learn from neuroimaging and genetics?Attention-deficit/hyperactivity disorder and attention networksForebrain overexpression of CK1delta leads to down-regulation of dopamine receptors and altered locomotor activity reminiscent of ADHD.Gestational iron deficiency differentially alters the structure and function of white and gray matter brain regions of developing rats.A haplotype relative risk study of the dopamine D4 receptor (DRD4) exon III repeat polymorphism and attention deficit hyperactivity disorder (ADHD).Family-based and association studies of monoamine oxidase A and attention deficit hyperactivity disorder (ADHD): preferential transmission of the long promoter-region repeat and its association with impaired performance on a continuous performance tPolymorphisms of the steroid sulfatase (STS) gene are associated with attention deficit hyperactivity disorder and influence brain tissue mRNA expression.Attention deficit/hyperactivity disorder children with a 7-repeat allele of the dopamine receptor D4 gene have extreme behavior but normal performance on critical neuropsychological tests of attentionScent marking behavior in male C57BL/6J mice: sexual and developmental determination.Gestational age, birth weight, and the risk of hyperkinetic disorder.Functional connectivity of frontal cortex in healthy and ADHD children reflected in EEG coherenceDopamine D4 receptor knockout mice exhibit neurochemical changes consistent with decreased dopamine releaseThe pars triangularis in dyslexia and ADHD: A comprehensive approach.Improvement of learning and increase in dopamine level in the frontal cortex by methylphenidate in mice lacking dopamine transporter.Loss of specificity in Basal Ganglia related movement disorders.Does soy-based infant formula cause ADHD? Update and public policy considerations.Understanding neurocognitive developmental disorders can improve education for all.ADHD pharmacogenetics across the life cycle: New findings and perspectives.Aggression in non-human vertebrates: Genetic mechanisms and molecular pathways.Frequency and function in the basal ganglia: the origins of beta and gamma band activity.Attention-memory training yields behavioral and academic improvements in children diagnosed with attention-deficit hyperactivity disorder comorbid with a learning disorder.Adaptive will: the evolution of attention deficit disorder.Is there a specific polysomnographic sleep pattern in children with attention deficit/hyperactivity disorder?The integration of body movement and attention in young infants.An investigation into etiological pathways of DCD and ADHD using a monozygotic twin design.Atomoxetine increases histamine release and improves learning deficits in an animal model of attention-deficit hyperactivity disorder: the spontaneously hypertensive rat.Dopamine D(2)-like receptor function is converted from excitatory to inhibitory by thyroxine in the developmental hippocampus.Altered corticostriatal neurotransmission and modulation in dopamine transporter knock-down mice.Chronic Treatment with a Clinically Relevant Dose of Methylphenidate Increases Glutamate Levels in Cerebrospinal Fluid and Impairs Glutamatergic Homeostasis in Prefrontal Cortex of Juvenile Rats.Multicomponent attention deficits in attention deficit hyperactivity disorder.Methylphenidate induces lipid and protein damage in prefrontal cortex, but not in cerebellum, striatum and hippocampus of juvenile rats.The Multi-Source Interference Task: validation study with fMRI in individual subjects.Case series: evaluation of a behavioral sleep intervention for three children with attention-deficit/hyperactivity disorder and dyssomnia.
P2860
Q24658208-02CE17AE-3890-4CBD-8F30-159F9993B392Q26830848-7F436BD3-2811-4EF8-B470-35E733C675D8Q28588180-9C32A7D7-36F2-4458-BB89-662B4FC0B491Q28656180-69E06271-770F-46F6-A394-7E381BF40775Q30496538-1E04FEC6-EC64-4C64-9874-318AC8FD7A2AQ30855196-C4746B71-8EB5-4476-BEA9-04EDC33D975EQ33247797-913B9720-6D26-4BEA-A30A-5947D606572DQ33374171-FF0100BC-2810-4C8B-BFAC-37992F855F58Q33504011-4FA3229D-C0B8-4ECA-848C-1F27853846D1Q33732994-804D8031-E055-41A9-8893-A71E53618BDBQ33752150-DF5AC9BE-E5A4-419D-93CB-986C54672D57Q33970856-C9A833D0-C542-46A0-AE0B-01D425338490Q34141246-E45C042B-A3B1-4980-886D-10138BD8D613Q35094553-7A5322DF-1F47-4CCD-8923-D2CF3575EFF5Q35693428-B5C8C7E7-D476-437C-842E-ADD19989014AQ36003154-DEB2D316-3949-4240-ABA2-E7051CE9A5EAQ36153619-E1477AFC-D9D9-4AD1-A7D2-CC2321BA6FB1Q36157155-7FD122BD-A12F-418F-8703-1D66BB7562F4Q37235635-5E1EED4C-CD10-4803-ACEB-D21A77B36AF6Q37381219-76973ED3-E3C8-4CB6-83DB-E7974084BE8FQ37741542-C1DA42B2-A9A2-421D-8E86-8DD595A53800Q37891816-4F809392-A85E-48DD-A86C-F580131505F6Q37997091-37D45306-9BA0-4E87-811E-A61F38A95A9EQ38100147-83FD1F98-323B-471C-A08B-9D3C8821D6B4Q38209972-7CD8DCAF-A1AE-4A62-B99A-0F7644E008C5Q38458914-F4980A32-7042-4BA8-9299-F8C0E74352C2Q38882624-C72D1544-150B-4145-A463-EB947B9D1D88Q40992661-7E45BA94-42E4-47D3-9FBD-75BE1874BA25Q41734169-AC59210D-51B5-402E-BA26-BCD36328ACC4Q44935426-45AE1389-CA2E-4A82-8935-9BAA0A611446Q45304942-E705B389-B0B0-475A-BE3C-6D9EC056DAE7Q45890510-E4434D9C-1AD1-4BEA-B6CB-1A75321A14F7Q46697483-82395FC1-FF40-4DD6-83D1-06D528D46354Q46798345-FB739E4C-8DC3-4B07-835F-26401C461071Q48158205-87A953ED-74C1-4ACD-B2E7-95D56143C6ACQ48163831-2E5AFC6D-7BF0-46FE-813B-ADB3957D38A4Q48240836-E35FC3B0-7F0F-42CE-B8AF-C74D1E9EF89FQ48381001-A27917DF-11F2-4996-BA42-9FAA2D4CAA6EQ48399410-6FDA965C-B28D-496E-9A0F-531F11D5CE3AQ48486161-F88E3BCD-4CA3-478D-98E9-0391C9476855
P2860
Cognitive neuroscience of attention deficit hyperactivity disorder and hyperkinetic disorder.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年学术文章
@wuu
1998年学术文章
@zh
1998年学术文章
@zh-cn
1998年学术文章
@zh-hans
1998年学术文章
@zh-my
1998年学术文章
@zh-sg
1998年學術文章
@yue
1998年學術文章
@zh-hant
name
Cognitive neuroscience of atte ...... der and hyperkinetic disorder.
@en
Cognitive neuroscience of atte ...... der and hyperkinetic disorder.
@nl
type
label
Cognitive neuroscience of atte ...... der and hyperkinetic disorder.
@en
Cognitive neuroscience of atte ...... der and hyperkinetic disorder.
@nl
prefLabel
Cognitive neuroscience of atte ...... der and hyperkinetic disorder.
@en
Cognitive neuroscience of atte ...... der and hyperkinetic disorder.
@nl
P2093
P1476
Cognitive neuroscience of atte ...... der and hyperkinetic disorder.
@en
P2093
P304
P356
10.1016/S0959-4388(98)80150-5
P577
1998-04-01T00:00:00Z