about
Experimental facilitation of the sensed presence is predicted by the specific patterns of the applied magnetic fields, not by suggestibility: re-analyses of 19 experimentsIt's All in the Family: Brain Asymmetry and Syntactic Processing of Word ClassSustaining attention to simple tasks: a meta-analytic review of the neural mechanisms of vigilant attentionAltered interhemispheric functional coordination in chronic tinnitus patients.Lateralization is predicted by reduced coupling from the left to right prefrontal cortex during semantic decisions on written wordsBilateral representations of touch in the primary somatosensory cortex.Eye tracking in normals: spem asymmetries and association with schizotypy.Right, left, and center: how does cerebral asymmetry mix with callosal connectivity?Differential development of human brain white matter tractsReduced fractional anisotropy of corpus callosum modulates inter-hemispheric resting state functional connectivity in migraine patients without aura.Reduced interhemispheric resting state functional connectivity in cocaine addictionHomotopic connectivity in drug-naïve, first-episode, early-onset schizophrenia.Low frequency fluctuations reveal integrated and segregated processing among the cerebral hemispheres.Reciprocal organization of the cerebral hemispheres.Corpus callosum atrophy rate in mild cognitive impairment and prodromal Alzheimer's disease.Decreased interhemispheric coordination in schizophrenia: a resting state fMRI study.Thinking ahead: the role and roots of prediction in language comprehension.Family-based case-control study of homotopic connectivity in first-episode, drug-naive schizophrenia at rest.Interhemispheric auditory connectivity: structure and function related to auditory verbal hallucinations.A case of developmental deep dyslexia: what's left is right.What's "right" in language comprehension: ERPs reveal right hemisphere language capabilities.Both sides get the point: hemispheric sensitivities to sentential constraint.Treatment effects of olanzapine on homotopic connectivity in drug-free schizophrenia at rest.Investigation of the effects of 'piperazine-containing party pills' and dexamphetamine on interhemispheric communication using electroencephalography.Cardiac Response During Auditory Selective Attention to Tones and Affective Sounds.Effects of trifluoromethylphenylpiperazine (TFMPP) on interhemispheric communication.Decreased interhemispheric coordination in the posterior default-mode network and visual regions as trait alterations in first-episode, drug-naive major depressive disorder.The Relationship between Exposure to Missiles and PTSD Symptoms as a Function of Hemispheric Preference in Israelis.Role of the corpus callosum in bimanual coordination: a comparison of patients with congenital and acquired callosal damage.Aberrant interhemispheric functional and structural connectivity in heroin-dependent individuals.Decreased Inter-Hemispheric Functional Connectivity in Cognitively Intact Elderly APOE ɛ4 Carriers: A Preliminary Study.The callosal dilemma: explaining diaschisis in the context of hemispheric rivalry via a neural network model.Neuropsychological and information processing deficits following mild traumatic brain injury.Interhemispheric cooperation of left- and right-handers in mental calculation tasks.Bilateral transfer of skill in left- and right-handers.Exploratory analysis of diffusion tensor imaging in children with attention deficit hyperactivity disorder: evidence of abnormal white matter structure.Aberrant Interhemispheric Connectivity in Obstructive Sleep Apnea-Hypopnea Syndrome.
P2860
Q28253529-18222409-2992-46F4-9260-CF0990425ADDQ28646936-11673A13-2A05-4654-9975-74D2088CAB04Q28708997-B7B20612-8078-4E78-AAA2-BD37DB0C7CDBQ30416491-9498F76F-82A5-4FAD-A862-56B4B27DDC14Q30501224-3F8A1AFA-B505-467B-B6B5-FB16757BF6A1Q31108760-70DD90F3-84E9-4024-A431-F2CE960308AFQ33680634-12608E22-D5A0-414B-AA41-C9B73F10EC7BQ33854386-FC0A72AA-94BF-44C2-9DEF-6E7A0A2A9D34Q34016322-D0319A29-6DDD-4264-A2CF-E61D8EC7E8E8Q34429153-386E44CE-2596-4914-A19E-ED009FCCCFBDQ34669511-904E5ABD-3C57-41F9-AA71-7CF65A79020CQ35097128-646B5B0C-162C-43DC-B58A-A97E91375A39Q35099174-33E369A9-64B6-4C4C-8514-C6209AF9752BQ35237320-A6558914-1AF3-45FD-9CDB-54480E6D4CBBQ35673511-FE0AE796-4390-47CC-9ACC-C6C841BC1824Q36244963-668B3D9A-8DDF-4273-921C-387066067CCEQ36830252-3A8A8DD0-B43C-4ADC-A6BC-3601B09D1D36Q37678963-0C191034-6542-43CF-AD91-15736BB010E7Q38191594-E95E689F-8426-41B9-A80A-833B93C224F5Q38380338-259E8647-FCF9-4558-9615-C7E4E2B0F539Q38393098-CBD930A1-5EDB-41A0-8E93-356D1EFE2AEEQ38410258-C4397A45-66B5-4603-B06F-3417FD83A726Q38709322-FC196143-6C42-4237-96DA-A365B0EA34D0Q39690848-29906E68-24A4-470B-A270-B4AFB1E359F1Q41109617-BAC1C60D-31FB-43AF-89BF-BFFEF033CE16Q43676016-5BB2CC89-7828-4029-99C1-FFBFDC366764Q47573866-0AB20900-D910-46DE-9684-678E2CF5553BQ47772223-04907E6C-B245-4A5A-8E96-5E23B8839438Q48680811-3461A8F5-832F-47CF-87FF-9630DC085F4DQ48840009-8ACF44DB-DB59-454A-9AF1-4417819AD980Q48933215-F8D9E9D9-BE3E-486A-98CB-218178A9F163Q51064375-585A6E2B-3F89-4B97-A97A-392016E8A18BQ52002013-816F4DFB-7760-481D-8F19-300D65D48290Q52010041-53AEA004-FE06-4D71-A93D-EB522C7EA90EQ52044387-5AA0554C-E86B-46D4-A237-2BA233C66726Q52145721-95BB319A-78F3-4D1F-A219-B597EB0C9297Q55270816-B2BE924B-E741-4FA5-B3C7-BB0F8C822590
P2860
description
1994 nî lūn-bûn
@nan
1994年の論文
@ja
1994年学术文章
@wuu
1994年学术文章
@zh
1994年学术文章
@zh-cn
1994年学术文章
@zh-hans
1994年学术文章
@zh-my
1994年学术文章
@zh-sg
1994年學術文章
@yue
1994年學術文章
@zh-hant
name
How and why do the two cerebral hemispheres interact?
@en
How and why do the two cerebral hemispheres interact?
@nl
type
label
How and why do the two cerebral hemispheres interact?
@en
How and why do the two cerebral hemispheres interact?
@nl
prefLabel
How and why do the two cerebral hemispheres interact?
@en
How and why do the two cerebral hemispheres interact?
@nl
P1476
How and why do the two cerebral hemispheres interact?
@en
P2093
Davidson RJ
Hoptman MJ
P304
P356
10.1037/0033-2909.116.2.195
P577
1994-09-01T00:00:00Z