about
Neural synchrony in schizophrenia: from networks to new treatmentsNMDA receptor antagonist effects, cortical glutamatergic function, and schizophrenia: toward a paradigm shift in medication developmentConverting positive and negative symptom scores between PANSS and SAPS/SANSA genome-wide association study of schizophrenia using brain activation as a quantitative phenotype.Neurophysiological evidence of corollary discharge function during vocalization in psychotic patients and their nonpsychotic first-degree relativesConverging evidence for gamma synchrony deficits in schizophrenia.When it's time for a change: failures to track context in schizophreniaBetween-site reliability of startle prepulse inhibition across two early psychosis consortia.Early auditory gamma-band responses in patients at clinical high risk for schizophreniaAuditory cortex responsiveness during talking and listening: early illness schizophrenia and patients at clinical high-risk for psychosis.Neurophysiological studies of auditory verbal hallucinations.Anticipating the future: automatic prediction failures in schizophrenia.Relationships between pre-stimulus γ power and subsequent P300 and reaction time breakdown in schizophrenia.The dependence of P300 amplitude on gamma synchrony breaks down in schizophrenia.Dysregulation of working memory and default-mode networks in schizophrenia using independent component analysis, an fBIRN and MCIC studyTuning in to the voices: a multisite FMRI study of auditory hallucinations.Glutamatergic modulation of auditory information processing in the human brain.An application of item response theory to fMRI data: prospects and pitfallsAnatomy of an error: ERP and fMRI.fMRI activity correlated with auditory hallucinations during performance of a working memory task: data from the FBIRN consortium study.Error detection failures in schizophrenia: ERPs and FMRI.Automatic semantic priming abnormalities in schizophrenia.Automatic auditory processing deficits in schizophrenia and clinical high-risk patients: forecasting psychosis risk with mismatch negativity.Multisite reliability of cognitive BOLD data.Assessing corollary discharge in humans using noninvasive neurophysiological methods.Working memory overload: fronto-limbic interactions and effects on subsequent working memory function.Functional neuroanatomy of auditory working memory in schizophrenia: relation to positive and negative symptoms.Riluzole augmentation in treatment-resistant obsessive-compulsive disorder: an open-label trial.A functional magnetic resonance imaging study of working memory abnormalities in schizophrenia.Frontally mediated inhibitory processing and white matter microstructure: age and alcoholism effects.A novel method for quantifying scanner instability in fMRI.Functional magnetic resonance imaging of motor cortex activation in schizophrenia.Schizophrenia miR-137 locus risk genotype is associated with dorsolateral prefrontal cortex hyperactivationAn ICA with reference approach in identification of genetic variation and associated brain networks.Impaired visual cortical plasticity in schizophrenia.Function biomedical informatics research network recommendations for prospective multicenter functional MRI studiesError monitoring dysfunction across the illness course of schizophrenia.Reliability of the amplitude of low-frequency fluctuations in resting state fMRI in chronic schizophrenia.North American Prodrome Longitudinal Study (NAPLS 2): overview and recruitment.Chronic smoking and the BOLD response to a visual activation task and a breath hold task in patients with schizophrenia and healthy controls.
P50
Q24644168-457CCAEB-D7E7-43D1-A8BA-D5F1862D1C95Q28205016-CA948D2C-943D-4DA5-904B-03C125CB474CQ28660667-16C71398-EDF1-4823-983D-1608633DEC17Q29417078-887A3779-2E25-4BFA-97FA-E111F3DD61D4Q30427296-55069272-BEC7-49F2-B95A-E0AB340DDD35Q30430824-ECB172F3-353E-4EDE-825C-04CF21670C4DQ30432493-9F04804D-CFAD-4D91-91C6-A4A62F3F7EAEQ30432879-4186540D-F11B-40E8-B91D-4D7772759B73Q30433522-551FA690-A23F-412D-905F-2120BAA41ECDQ30447855-98C63C86-D958-4023-84D0-2784C5D52285Q30453056-0C0E9FF3-9D38-4C8B-8E2E-32B5943CAA59Q30458597-103FBCFF-5494-414A-BF1F-EBB6CDD45F10Q30471757-6F64EEAE-8844-4339-87F1-3CE05B3177E4Q30472427-9F789711-B5F3-42B3-9E59-0CBD06524BE8Q30476341-B85718FE-7548-4C48-AA05-7176DD5B6B2DQ30484435-BB5E4E9F-2E20-4C19-8B28-9D42C0CFD7E5Q30506046-1BEBD571-140E-452B-B739-0CA6ADE3BD5AQ30621035-9B6F7685-976E-4788-A71A-89361AB55C5FQ33194631-2720B642-B40E-4362-B09C-F049EE0322E1Q33383315-B231A055-9066-46DD-A195-F15F80EF2A8DQ33438734-020DE2B1-EDEE-4780-92E6-50FC27B9AE52Q33517573-EBB0443D-15D4-445F-A8FD-65BCD069F7FFQ33637879-340B7D52-C828-4039-9C0C-AA77291A1208Q33713523-80E4CCEE-A752-4743-A297-53A3BDF74D4DQ33733380-C8C0431D-6A46-4C50-BF81-C7335E6B2F2DQ33788347-3DB96DF0-5483-4CD6-8905-73B876802515Q33932749-0161E41F-061D-4F87-8EBF-0FA4E80C120BQ34430705-485A99EC-FA01-49FC-A1BB-9A5810BEF81CQ34497836-0816FACA-C1A7-4009-BE91-289A5B5A6F3CQ34551232-36AFBCA9-17C5-40E5-948D-875C12032D66Q35050954-9B089D0E-84A7-4756-B3BD-B2BEEAA26274Q35553724-536FC2E0-CC9D-474F-8A1A-140BB89FFEFEQ35596962-576A1FCB-4633-46FC-AD07-9EF2C8F55A77Q35771085-7684104B-FEB4-4860-BAD3-7091B8B98B08Q35799212-376B36CE-D09A-4B6B-8EB0-BC9CF4807150Q35951688-3AEB5FFA-7CB5-453F-B8DB-5E6F1A4CEFA9Q35981235-F20A5B38-80B0-4B27-BD93-639B84894080Q35992465-165FA1F4-5B16-4352-8918-422ED95D0426Q36412920-F036F3B8-EB67-4914-A2E3-9013184B8F47Q36559599-3BADA3C1-E86F-4EBE-A998-4E88A06BCA87
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Daniel H Mathalon
@es
Daniel H Mathalon
@nl
Daniel H Mathalon
@sl
Daniel H. Mathalon
@en
type
label
Daniel H Mathalon
@es
Daniel H Mathalon
@nl
Daniel H Mathalon
@sl
Daniel H. Mathalon
@en
prefLabel
Daniel H Mathalon
@es
Daniel H Mathalon
@nl
Daniel H Mathalon
@sl
Daniel H. Mathalon
@en
P106
P1153
7004696371
P21
P2456
P31
P496
0000-0001-6090-4974