Wisconsin card sorting activated regional cerebral blood flow in first break and chronic schizophrenic patients and normal controls

[1]  G. Paxinos,et al.  Atlas of the Human Brain , 2000 .

[2]  M. Devous,et al.  Regional cerebral blood flow in first break and chronic schizophrenic patients and normal controls , 1995, Schizophrenia Research.

[3]  F. Moeller,et al.  Cerebellar blood flow in schizophrenic patients and normal control subjects , 1995, Psychiatry Research: Neuroimaging.

[4]  N. Lassen,et al.  Regional cerebral blood flow distribution in newly diagnosed schizophrenia and schizophreniform disorder , 1994, Psychiatry Research.

[5]  D Ros,et al.  Prefrontal and temporal blood flow in schizophrenia: resting and activation technetium-99m-HMPAO SPECT patterns in young neuroleptic-naive patients with acute disease. , 1994, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[6]  H. Matsuda,et al.  SPECT analysis of regional cerebral blood flow changes in patients with schizophrenia during the Wisconsin card sorting test , 1993, Schizophrenia Research.

[7]  D. Weinberger,et al.  Regional cerebral blood flow in monozygotic twins discordant and concordant for schizophrenia. , 1992, Archives of general psychiatry.

[8]  S. Potkin,et al.  Frontostriatal disorder of cerebral metabolism in never-medicated schizophrenics. , 1992, Archives of general psychiatry.

[9]  N C Andreasen,et al.  Hypofrontality in neuroleptic-naive patients and in patients with chronic schizophrenia. Assessment with xenon 133 single-photon emission computed tomography and the Tower of London. , 1992, Archives of general psychiatry.

[10]  D. Weinberger,et al.  Evidence of dysfunction of a prefrontal-limbic network in schizophrenia: a magnetic resonance imaging and regional cerebral blood flow study of discordant monozygotic twins. , 1992, The American journal of psychiatry.

[11]  B. Toone,et al.  A controlled study of 99mTc-HMPAO single-photon emission imaging in chronic schizophrenia , 1992, Psychological Medicine.

[12]  N. Lassen,et al.  Altered modulation of prefrontal and subcortical brain activity in newly diagnosed schizophrenia and schizophreniform disorder. A regional cerebral blood flow study. , 1991, Archives of general psychiatry.

[13]  Reinhard Steinberg,et al.  Brain dysfunction during motor activation and corpus callosum alterations in Schizophrenia measured by cerebral blood flow and magnetic resonance imaging , 1991, Biological Psychiatry.

[14]  J. Herman,et al.  Hypofrontality and cognitive impairment in schizophrenia: Dynamic single-photon tomography and neuropsychological assessment of schizophrenic brain function , 1990, Biological Psychiatry.

[15]  M S Buchsbaum,et al.  Glucose Metabolic Rate in Normals and Schizophrenics During the Continuous Performance Test Assessed by Positron Emission Tomography , 1990, British Journal of Psychiatry.

[16]  D. Weinberger,et al.  Physiological dysfunction of dorsolateral prefrontal cortex in schizophrenia. III. A new cohort and evidence for a monoaminergic mechanism. , 1988, Archives of general psychiatry.

[17]  G. Brown,et al.  Effect of neuroleptics on altered cerebral glucose metabolism in schizophrenia. , 1988, Archives of general psychiatry.

[18]  N C Andreasen,et al.  Brain imaging: applications in psychiatry. , 1988, Science.

[19]  T. Goldberg,et al.  Further evidence for dementia of the prefrontal type in schizophrenia? A controlled study of teaching the Wisconsin Card Sorting Test. , 1987, Archives of general psychiatry.

[20]  L. DeLisi,et al.  Dysfunction in a prefrontal substrate of sustained attention in schizophrenia. , 1987, Life sciences.

[21]  N. Volkow,et al.  Phenomenological correlates of metabolic activity in 18 patients with chronic schizophrenia. , 1987, The American journal of psychiatry.

[22]  D. Weinberger,et al.  Physiologic dysfunction of dorsolateral prefrontal cortex in schizophrenia. II. Role of neuroleptic treatment, attention, and mental effort. , 1986, Archives of general psychiatry.

[23]  E M Stokely,et al.  Normal Distribution of Regional Cerebral Blood Flow Measured by Dynamic Single-Photon Emission Tomography , 1986, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[24]  D. Weinberger,et al.  Physiologic dysfunction of dorsolateral prefrontal cortex in schizophrenia. I. Regional cerebral blood flow evidence. , 1986, Archives of general psychiatry.

[25]  S. Stahl,et al.  18Fluorodeoxyglucose PET in schizophrenia , 1985, Psychiatry Research.

[26]  L. DeLisi,et al.  Anteroposterior gradients in cerebral glucose use in schizophrenia and affective disorders. , 1984, Archives of general psychiatry.

[27]  Michael Petrides,et al.  Behavioural effects of frontal-lobe lesions in man , 1984, Trends in Neurosciences.

[28]  M. Devous,et al.  Error Analysis of the Double-Integral Method for Calculating Brain Blood Perfusion from Inert Gas Clearance Data , 1984, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[29]  R. Heaton,et al.  The utility of the Wisconsin Card Sorting Test in detecting and localizing frontal lobe lesions. , 1980, Journal of consulting and clinical psychology.

[30]  N. Lassen,et al.  A single photon dynamic computer assisted tomograph (DCAT) for imaging brain function in multiple cross sections. , 1980, Journal of computer assisted tomography.

[31]  I Kanno,et al.  Two Methods for Calculating Regional Cerebral Blood Flow from Emission Computed Tomography of Inert Gas Concentrations , 1979, Journal of computer assisted tomography.

[32]  D. Ingvar,et al.  ABNORMALITIES OF CEREBRAL BLOOD FLOW DISTRIBUTION IN PATIENTS WITH CHRONIC SCHIZOPHRENIA , 1974, Acta psychiatrica Scandinavica.

[33]  Seymour Geisser,et al.  Statistical Principles in Experimental Design , 1963 .

[34]  D. Luchins,et al.  Maintenance of training effects on the Wisconsin Card Sorting Test by patients with schizophrenia or affective disorders. , 1994, The American journal of psychiatry.

[35]  A. Benton,et al.  Frontal Lobe Function and Dysfunction , 1991 .

[36]  M S Buchsbaum,et al.  The frontal lobes, basal ganglia, and temporal lobes as sites for schizophrenia. , 1990, Schizophrenia bulletin.

[37]  Wafter B. Van Vort Review in Psychiatry , 1988 .

[38]  J. Totah,et al.  INTERACTIVE GRAPHICS METHODS FOR REGIONAL QUANTIFICATION OF TOMOGRAPHIC BRAIN BLOOD FLOW IMAGES. , 1982 .

[39]  A. Hirano,et al.  AN ATLAS OF THE HUMAN BRAIN FOR COMPUTERIZED TOMOGRAPHY. , 1978 .