about
Shifting the spotlight of attention: evidence for discrete computations in cognitionThe use of α-2A adrenergic agonists for the treatment of attention-deficit/hyperactivity disorderUpdating P300: an integrative theory of P3a and P3bThe influence of methylphenidate on the power spectrum of ADHD children - an MEG study.ERP Correlates of Proactive and Reactive Cognitive Control in Treatment-Naïve Adult ADHDRobust hippocampal responsivity during retrieval of consolidated associative memory.Partial genetic deletion of neuregulin 1 modulates the effects of stress on sensorimotor gating, dendritic morphology, and HPA axis activity in adolescent mice.Colocalized structural and functional changes in the cortex of patients with trigeminal neuropathic pain.Validity of large-deformation high dimensional brain mapping of the basal ganglia in adults with Tourette syndrome.Auditory resting-state network connectivity in tinnitus: a functional MRI study.The influence of acute stress on attention mechanisms and its electrophysiological correlatesTranscranial direct current stimulation reduces the cost of performing a cognitive task on gait and postural control.Processes in arithmetic strategy selection: a fMRI studyModel-Based Reasoning in Humans Becomes Automatic with Training.Aristotle Meets Zeno: Psychophysiological Evidence.Effects of transcranial direct current stimulation (tDCS) on multiscale complexity of dual-task postural control in older adultsUnilateral deactivation of macaque dorsolateral prefrontal cortex induces biases in stimulus selection.Effects of sleep deprivation on neural functioning: an integrative review.Diffusion tensor imaging correlates of memory and language impairments in temporal lobe epilepsyVentromedial prefrontal damage reduces mind-wandering and biases its temporal focus.A double-blind, sham-controlled, pilot study to assess the effects of the concomitant use of transcranial direct current stimulation with the computer assisted cognitive rehabilitation to the prefrontal cortex on cognitive functions in patients withVisual attention, an indicator of human-animal relationships? A study of domestic horses (Equus caballus).Early modality-specific somatosensory cortical regions are modulated by attended visual stimuli: interaction of vision, touch and behavioral intent.Prefrontal cortical network connections: key site of vulnerability in stress and schizophrenia.A neurophenomenological model for the role of the hippocampus in temporal consciousness. Evidence from confabulation.Association between cognitive deficits and suicidal ideation in patients with major depressive disorder.Exercise Promotes Neuroplasticity in Both Healthy and Depressed Brains: An fMRI Pilot Study.The Emerging Neurobiology of Attention Deficit Hyperactivity Disorder: The Key Role of the Prefrontal Association Cortex.Attention is complex: causes and effects.Operation of a P300-based brain-computer interface in patients with Duchenne muscular dystrophy.
P2860
Q21558441-35035F88-9898-4C1D-9ABA-E25AB4B878F8Q24629736-4981D6FD-7866-4810-AA77-8EFCEB960A13Q24645237-B5003DF6-9D6E-47B8-BBAF-8C5EDF0C00B2Q24812170-5FB2EFDF-FC37-478C-8AB5-6807E7FC9D15Q26779604-3821FF96-3B64-4FB8-8D77-9A359A9B9AECQ30384629-768D6D70-BD20-4C47-8091-5170AB05BC46Q30400033-C88A3A6F-B352-4229-A367-FBF7BC8BFF44Q33377022-41CD51AB-87DA-4F52-A41D-ECD8E9E38CC3Q33809780-0049F008-2792-4523-8827-60E721AEDF0CQ34264602-9FA894E3-6097-4643-A59F-9F572075DF93Q34313295-CEC04700-A2A7-4127-A935-35514C13090EQ34460830-0E4C4BEE-41BF-4DDE-980D-9E4C6D6FD419Q35047774-87BE5A21-816A-45A9-8C94-2B3B64759CC5Q35778665-8F03315C-B946-4C6C-AC4E-816037C44237Q36235527-BA8B8907-3CBB-40A6-A351-6C4F095F9222Q36560302-4E3A0E76-D0B6-4BE0-83E5-579F0EBF3255Q36729794-E5A3D474-2CCA-4BE9-8F0D-2401BF86CA5EQ36755406-34B2B1A8-4904-4488-85DA-2515CCBFD2FFQ37179050-B82E5F78-FA4C-4B2D-BB98-34E6C7E1875EQ37388315-261C5EAA-0F35-4B6B-8609-CAD5605B2272Q37578071-5BACCC39-359C-4444-AF13-7F7C660DF523Q37581577-D6022EF2-AF58-4BAA-B3CB-8206D91EEAF4Q37734994-5E3A3490-36EC-4CB6-AEE5-F0FEB1C54B67Q37846278-B81992CF-ADEC-4CB9-9424-0D329466CFC6Q38588437-EE1F444E-7E6C-496B-8388-A0C7A06895A2Q41046578-BDA3AB81-2874-49A6-ACC3-F35D2DA0FAB8Q41371263-42BABB64-5B2C-4827-BB58-EC213F83FA8CQ41570471-E6867D8F-DD29-455E-B567-E014121B5D29Q42252964-F8FB3436-3B6A-41CE-B7BA-F54DA4AFCF99Q47833524-2DCBB3E6-EF6F-48F0-BD9F-0DAAA49E551D
P2860
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
1995年论文
@zh
1995年论文
@zh-cn
name
Role of human prefrontal cortex in attention control.
@en
type
label
Role of human prefrontal cortex in attention control.
@en
prefLabel
Role of human prefrontal cortex in attention control.
@en
P2093
P1476
Role of human prefrontal cortex in attention control
@en
P2093
Grabowecky MF
P304
21-34; discussion 34-6
P577
1995-01-01T00:00:00Z