Gray matter differences correlate with spontaneous strategies in a human virtual navigation task.
about
Spatial navigation by congenitally blind individuals.Annual research review: The neurobehavioral development of multiple memory systems--implications for childhood and adolescent psychiatric disordersImaging structural co-variance between human brain regionsMultisensory control of multimodal behavior: do the legs know what the tongue is doing?Behavioral and neuroanatomical investigation of Highly Superior Autobiographical Memory (HSAM)Patterns of preserved and impaired spatial memory in a case of developmental amnesiaBeyond Dizziness: Virtual Navigation, Spatial Anxiety and Hippocampal Volume in Bilateral Vestibulopathy.Emotional arousal and multiple memory systems in the mammalian brain.Caudate nucleus-dependent navigational strategies are associated with increased use of addictive drugsNeural evidence supports a novel framework for spatial navigation.The Web-Surf Task: A translational model of human decision-makingNoninvasive functional and anatomical imaging of the human medial temporal lobeCorrelates of virtual navigation performance in older adults.Individual Differences in Human Path Integration Abilities Correlate with Gray Matter Volume in Retrosplenial Cortex, Hippocampus, and Medial Prefrontal Cortex.Morphine Reward Promotes Cue-Sensitive Learning: Implication of Dorsal Striatal CREB ActivityStructural impairments of hippocampus in coal mine gas explosion-related posttraumatic stress disorder.Structural covariance of superficial white matter in mild Alzheimer's disease compared to normal aging.Talent in the taxi: a model system for exploring expertise.Human brain dynamics accompanying use of egocentric and allocentric reference frames during navigation.The human hippocampus beyond the cognitive map: evidence from a densely amnesic patient.When do objects become landmarks? A VR study of the effect of task relevance on spatial memoryEffects of age on navigation strategyThe brain-derived neurotrophic factor Val66Met polymorphism is associated with reduced functional magnetic resonance imaging activity in the hippocampus and increased use of caudate nucleus-dependent strategies in a human virtual navigation task.Hippocampus and striatum: dynamics and interaction during acquisition and sleep-related motor sequence memory consolidation.Assessment of the caudate nucleus and its relation to route learning in both congenital and late blind individuals.Cooperative interactions between hippocampal and striatal systems support flexible navigation.Dissecting the age-related decline on spatial learning and memory tasks in rodent models: N-methyl-D-aspartate receptors and voltage-dependent Ca2+ channels in senescent synaptic plasticityCharacterizing cognitive aging of spatial and contextual memory in animal modelsGaze-informed, task-situated representation of space in primate hippocampus during virtual navigation.Aging specifically impairs switching to an allocentric navigational strategy.Virtual navigation strategies from childhood to senescence: evidence for changes across the life span.An association between human hippocampal volume and topographical memory in healthy young adultsInfluence of Ethnicity, Gender and Answering Mode on a Virtual Point-to-Origin Task.Spatial navigational strategies correlate with gray matter in the hippocampus of healthy older adults tested in a virtual maze.Plasticity in gray and white: neuroimaging changes in brain structure during learningHippocampal size predicts rapid learning of a cognitive map in humans.Developmental changes in organization of structural brain networksAPOE2 Is Associated with Spatial Navigational Strategies and Increased Gray Matter in the Hippocampus.Egocentric spatial learning in schizophrenia investigated with functional magnetic resonance imaging.Apolipoprotein ɛ4 breaks the association between declarative long-term memory and memory-based orienting of spatial attention in middle-aged individuals.
P2860
Q26774800-CBE199F2-D10E-438C-9F13-EBECE9AC3A26Q26864027-CD5C6613-D9E2-4FA6-89AB-5AEE32EFE8E1Q27022385-50E5F4A6-3AF4-4026-A49E-C2973A089E36Q27301880-88CD6B45-E41C-42B3-B7AE-C0F094C8E9ECQ28267784-48EBAD0A-AEC1-46B1-8106-A5DF54EA9F45Q28647735-DBCEEBC8-84FB-453A-B833-38506E90D47BQ30386226-ABC87C5E-EA1A-4412-BF5F-D355376F03C1Q30468823-EE51428A-8163-46FE-83FC-3234837D5AB5Q30486328-63FDBF3C-3637-4450-8EE7-2F72313AFAD6Q30581040-1F491DD5-778E-4E05-9ABA-BADF89AEFCE2Q30714639-4ECF96CF-4F0D-4153-B0B3-D2683B854178Q30911451-51697184-B084-4A73-9826-AA68ADF8FE51Q31049793-D4DF74A9-B570-45DD-ABE8-35AEF9C5FCCCQ33567882-A7314E0A-5C64-4B4B-9944-F44BFA2BB747Q33736491-394A267D-32CB-4E8A-A921-708E65B60DD0Q33856552-123B0A7F-683A-4B48-9A7F-92F97B83B958Q33964442-BC9BB1B9-3FAC-4FE8-94EE-CDFC65FAA01CQ34018070-0BF35BAA-7C1C-4A04-BD64-C99526393D7AQ34060050-DED89ED8-D043-4B5F-9928-D1C0A78FD497Q34180663-1869D447-87CE-4A6F-BE83-5FF4A4AE0FDCQ34269025-B4633E2C-F919-4054-ABB3-78CB6F9D9AD7Q34819849-086E574C-CBC3-4037-B724-F2D837703EA5Q34886120-19561DAB-F25C-4B0F-BBE0-550C2CA15DE5Q34912595-A8F38296-D2B7-4B6F-BDF7-0840C843ADB3Q35007959-5897B6D4-AC8D-459B-8F4A-47186E50EA0CQ35830850-2CCAB25E-1F5C-4CCC-B695-934BED57FEA4Q35840136-BB9DEA17-AB40-4711-9F06-54920B3FEAD8Q36227699-12063FC6-886F-4CF9-ACC5-5B5E28F720C1Q36291406-2EE1EFD6-1778-40F1-BA6B-E4416DF0D34FQ36361283-63EB4A9A-6423-4B39-8B23-91F34C129967Q36401330-A11DD4CA-67A9-4661-BFB9-267C9862A576Q36497885-E3A4A8EF-8D30-49CA-ABD2-E355B149EEB5Q36605464-5920F57B-E4F4-407E-8A85-B8EACAE6376BQ36622175-40A16ED8-C43E-4FD7-8E35-44DB390B4AC2Q36864561-0C0E228C-283A-4022-8E84-503B8C4C1918Q36949706-E872245A-EEA8-48D9-BDFB-B39DDED79CF4Q37059365-A6ABE589-97F2-4F92-8EF5-A3A540C424B8Q37089322-376B066A-2D3A-4E0E-963F-81699EB23481Q37133603-9C3A2FC7-36FA-4D41-925A-AECA4B83D369Q37168184-12A14774-C4E7-4F56-B4BE-D7079001422D
P2860
Gray matter differences correlate with spontaneous strategies in a human virtual navigation task.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Gray matter differences correl ...... human virtual navigation task.
@en
Gray matter differences correl ...... human virtual navigation task.
@nl
type
label
Gray matter differences correl ...... human virtual navigation task.
@en
Gray matter differences correl ...... human virtual navigation task.
@nl
prefLabel
Gray matter differences correl ...... human virtual navigation task.
@en
Gray matter differences correl ...... human virtual navigation task.
@nl
P2093
P1476
Gray matter differences correl ...... human virtual navigation task
@en
P2093
Alex P Zijdenbos
Brook Thorndycraft
Jason Lerch
Véronique D Bohbot
P304
10078-10083
P356
10.1523/JNEUROSCI.1763-07.2007
P407
P577
2007-09-01T00:00:00Z