Clinical application of the P300 event-related brain potential.
about
P300 development across the lifespan: a systematic review and meta-analysisUpdating P300: an integrative theory of P3a and P3bThe influence of exercise on cognitive abilitiesThe auditory-visual integration of anger is impaired in alcoholism: an event-related potentials studyOverview of Central Auditory Processing Deficits in Older Adults.A clinical trial to validate event-related potential markers of Alzheimer's disease in outpatient settings.Relationships between auditory event-related potentials and mood state, medication, and comorbid psychiatric illness in patients with bipolar disorderAuditory P3 in antidepressant pharmacotherapy treatment responders, non-responders and controls.Attention to language: novel MEG paradigm for registering involuntary language processing in the brain.Arousal modulates auditory attention and awareness: insights from sleep, sedation, and disorders of consciousness.The effects of HIV on P300 are moderated by familial risk for substance dependence: implications for a theory of brain reserve.Latent deleterious effects of binge drinking over a short period of time revealed only by electrophysiological measures.Workload assessment of computer gaming using a single-stimulus event-related potential paradigm.Combined frontal and parietal P300 amplitudes indicate compensated cognitive processing across the lifespan.Sex Differences in Neurophysiological Activation Patterns During Phonological Input Processing: An Influencing Factor for Normative Data.Improving the clinical assessment of consciousness with advances in electrophysiological and neuroimaging techniques.Enhanced Feedback-Related Negativity in Alzheimer's DiseaseEffects of the Electrode Type on N100 and P300 in tDCS Applications.Only low frequency event-related EEG activity is compromised in multiple sclerosis: insights from an independent component clustering analysis.Neurofeedback as a nonpharmacological treatment for adults with attention-deficit/hyperactivity disorder (ADHD): study protocol for a randomized controlled trial.Neural Correlates of Successful and Unsuccessful Strategical Mechanisms Involved in Uncertain Decision-MakingMemory timeline: Brain ERP C250 (not P300) is an early biomarker of short-term storage.Changes in P3b Latency and Amplitude Reflect Expertise Acquisition in a Football Visuomotor Learning TaskAssessing neurocognitive dysfunction in cranial radiotherapy: can cognitive event-related potentials help?Early event related fields during visually evoked pain anticipationC145 as a short-latency electrophysiological index of cognitive compensation in Alzheimer's diseaseNeurophysiological correlates of moderate alcohol consumption in older and younger social drinkers.ERP C250 shows the elderly (cognitively normal, Alzheimer's disease) store more stimuli in short-term memory than Young Adults doMethodological Considerations about the Use of Bimodal Oddball P300 in Psychiatry: Topography and Reference Effect.Age, physical fitness, and attention: P3a and P3b.Cognitive Processing in Non-Communicative Patients: What Can Event-Related Potentials Tell Us?Effect of strength and endurance training on cognition in older people.Neural correlates of performance monitoring in chronic cannabis users and cannabis-naive controls.Are visual impairments responsible for emotion decoding deficits in alcohol-dependence?The use of P300-based BCIs in amyotrophic lateral sclerosis: from augmentative and alternative communication to cognitive assessment.Meta-analytic review of P3 components in posttraumatic stress disorder and their clinical utility.Electrocortical features of depression and their clinical utility in assessing antidepressant treatment outcome.Bootstrapping the P300 in diagnostic psychophysiology: How many iterations are needed?Auditory event-related potentials (P3) and cognitive changes induced by frontal direct current stimulation in alcoholics according to Lesch alcoholism typology.Transcranial Direct Current Stimulation Over the Right Frontal Inferior Cortex Decreases Neural Activity Needed to Achieve Inhibition: A Double-Blind ERP Study in a Male Population.
P2860
Q21132334-6BECE7F7-761D-4135-83A9-722FCF119529Q24645237-2DA9CDCA-E70C-48A3-A95E-94BFA4414DF2Q26852203-FC78DE7E-5701-44F4-8B29-DA1857448F5FQ28272081-0E4B7AF1-65AB-464E-9E51-D365D6F107A9Q30376660-7B10A1E4-F33B-4E12-99EB-4E11CC4F8C61Q30382854-4A64D4DB-F102-40A5-B28E-ADE0E2A150BCQ30398248-E9F06EDD-AC3D-4C75-8E90-3A2922E42435Q30427033-8D56BB47-3005-4D12-BDA9-7D9BB03C5F07Q30454518-4A1EA3CE-24D6-4BDB-882C-88D7F26F767DQ30469723-6ED11616-093A-44DC-B5DC-DBB127F9138EQ30490351-7AEBA8A9-7DF9-4A4A-A287-4F7451885B57Q30490820-8011381D-1E96-4B66-B87F-481C4887A530Q30490914-6A86B5A5-B027-41EB-9926-657FCDAA8BC3Q30596227-456178C1-8F7F-4497-9962-399E9317C431Q30959358-FD492B3E-9BE2-4A19-8683-577AB39D08B0Q33527562-FFD73E71-7D75-408D-BA2E-4B3DDE2720F7Q33611419-AB344016-B32F-4FE4-BF32-3E7C93B5FA1BQ34244569-AAEEEA09-3320-476E-AFC6-A3848612F6B7Q34429314-79D999ED-5B95-4C38-8777-C54CCB9A400DQ35610253-B84C4144-5470-437D-AF21-7DAA66E3CCF1Q35666934-75C6642C-34FC-43EA-A1C0-43CBC157D049Q35914590-266D84C5-CB1D-459B-A267-99436D0594F2Q35998463-22F54D54-6728-44C0-91D0-0C42817096BBQ36427234-EF4E4CE1-3AA2-4B94-91B9-186F1E6A0E27Q36578766-04EE0FDA-BE36-4AD8-AB89-0EE66D327926Q36622706-8A824181-D522-4018-B192-1CBFDEA01EA1Q36751742-F6F1C795-6967-481C-9950-EAF29725DBC0Q37123658-2B9BFC29-1732-4A7D-BA00-0063B5ACE200Q37270680-A3004173-E9BB-48F4-B4BA-AA29F500FC5AQ37390777-DF5625C8-E494-4787-A5FB-0C6E3378FD8BQ37411269-39FCC6E5-3DA8-405C-8C36-93A5E58A6DF0Q37459813-C04116AB-1B9B-4A33-949B-384DDD3369D4Q37581910-F6A99E76-ECD1-4898-9627-C2603006427DQ37627718-41F3EBF0-3416-4966-91DB-D4F3659A202FQ38040797-FFEFD777-A53E-4505-86FB-349D3248946BQ38094839-FB4F9B70-04D1-4F49-891B-E67AB4E551FDQ38149983-78241925-58DF-4A8C-83A7-ABBB29383620Q39124264-72F6646D-2639-472E-9EE8-7331033B226CQ39725862-7F98FC60-97DB-460C-AD22-5E06E8C1FFF8Q39773115-27B95D06-43E1-4CDD-98B4-9F423BD36A58
P2860
Clinical application of the P300 event-related brain potential.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Clinical application of the P300 event-related brain potential.
@ast
Clinical application of the P300 event-related brain potential.
@en
type
label
Clinical application of the P300 event-related brain potential.
@ast
Clinical application of the P300 event-related brain potential.
@en
prefLabel
Clinical application of the P300 event-related brain potential.
@ast
Clinical application of the P300 event-related brain potential.
@en
P1476
Clinical application of the P300 event-related brain potential.
@en
P2093
John Polich
P304
P356
10.1016/S1047-9651(03)00109-8
P577
2004-02-01T00:00:00Z