Try a new search

Format these results:

Searched for:

in-biosketch:yes

person:wolkia01

Total Results:

55


Time-dependent effects of a haloperidol challenge on energy metabolism in the normal human brain

Bartlett EJ; Brodie JD; Simkowitz P; Dewey SL; Rusinek H; Volkow ND; Wolf AP; Smith G; Wolkin A; Cancro R
Positron emission tomography and the fluorodeoxyglucose method were used to measure regional brain metabolism before and 2 h after haloperidol (5 mg, i.m.) in 11 young normal men. These data were compared with measures obtained from nine previously studied normal men who had received no drug intervention. Although a previously published study had demonstrated significantly decreased metabolism in whole brain, neocortex, limbic cortex, thalamus, and caudate nucleus 12 h after a 5-mg dose of haloperidol, the present 2-h study did not show significant metabolic changes despite the fact that significant extrapyramidal effects occurred. Taken together, these studies demonstrate differences in the temporal organization of behavioral and metabolic responses to haloperidol challenge
PMID: 8723299
ISSN: 0165-1781
CID: 12632

Blunted change in cerebral glucose utilization after haloperidol treatment in schizophrenic patients with prominent negative symptoms

Wolkin A; Sanfilipo M; Duncan E; Angrist B; Wolf AP; Cooper TB; Brodie JD; Laska E; Rotrosen JP
OBJECTIVE: The purpose of this report was to determine 1) the effects of chronic haloperidol treatment on cerebral metabolism in schizophrenic patients, 2) the relation between negative symptoms and haloperidol-induced regional changes in cerebral glucose utilization, and 3) the relation between metabolic change and clinical antipsychotic effect. METHOD: Cerebral glucose utilization, as determined by position emission tomography (PET), was studied in 18 male schizophrenic subjects before and after chronic treatment with haloperidol at a standardized plasma level. RESULTS: Overall, haloperidol caused a widespread decrease in absolute cerebral glucose metabolism. The cerebral metabolic response to haloperidol was blunted in patients with high pretreatment negative symptom scores. CONCLUSIONS: Taken together with the results from a previously reported PET study of the effects of an acute amphetamine challenge (in which 14 of the current subjects participated), these data suggest that the negative symptom complex is associated with diminished cerebral response to change in dopaminergic activity. This deficit cannot be solely accounted for by structural differences
PMID: 8610821
ISSN: 0002-953x
CID: 7060

Amphetamine and negative symptoms of schizophrenia

Sanfilipo M; Wolkin A; Angrist B; van Kammen DP; Duncan E; Wieland S; Cooper TB; Peselow ED; Rotrosen J
The purpose of this study was to assess further the effect of amphetamine on negative symptoms of schizophrenia. Thirty-seven schizophrenic males meeting DSM-III criteria were rated with the Brief Psychiatric Rating Scale, the Abrams and Taylor Scale, and the Abnormal Involuntary Movements Scale before and after double-blind administration of either amphetamine (n = 26) or placebo (n = 11). Our results indicated that amphetamine administration generally did not improve negative symptoms, even when accounting for changes in positive symptoms. However, greater baseline negative symptoms were associated with a modest diminution after amphetamine treatment. Therefore, amphetamine may modestly improve negative symptoms in those schizophrenics in whom this symptomatology is more severe
PMID: 8741946
ISSN: 0033-3158
CID: 23583

Acute d-amphetamine challenge in schizophrenia: effects on cerebral glucose utilization and clinical symptomatology

Wolkin A; Sanfilipo M; Angrist B; Duncan E; Wieland S; Wolf AP; Brodie JD; Cooper TB; Laska E; Rotrosen JP
The effects of d-amphetamine (0.5 mg/kg orally) on regional cerebral glucose utilization were measured with positron emission tomography (PET) in 17 schizophrenics (along with a placebo-control group of an additional six schizophrenic patients). The acute d-amphetamine challenge tended to decrease glucose utilization throughout much of the brain, with a regional effect that was statistically significant in the left temporal cortex. There was no apparent relationship between the effects of amphetamine-induced changes in regional cerebral metabolism and psychotic symptom exacerbation. An exploratory analysis suggested that features characteristic of Crow's type II syndrome were significant predictors of cerebral hyporesponsivity to stimulant challenge, however
PMID: 7993958
ISSN: 0006-3223
CID: 8462

Effects of haloperidol challenge on regional cerebral glucose utilization in normal human subjects

Bartlett EJ; Brodie JD; Simkowitz P; Dewey SL; Rusinek H; Wolf AP; Fowler JS; Volkow ND; Smith G; Wolkin A
OBJECTIVE: Positron emission tomography and the fluorodeoxyglucose (FDG) method were used to determine the brain's metabolic response to neuroleptic challenge in a normal, disease-free state. METHOD: FDG measurements were obtained before and 12 hours after administration of 5 mg of haloperidol to 12 young normal men. These values were compared with test-retest FDG measures obtained from nine normal male control subjects who received no drug intervention. RESULTS: After haloperidol administration, the haloperidol subjects showed significantly lower glucose utilization in the neocortex, limbic cortex, thalamus, and caudate nucleus but not in the putamen or cerebellum. After adjustment for global effects, significant reductions were still evident in the frontal, occipital, and anterior cingulate cortex, whereas the putamen and cerebellum showed significant increases. CONCLUSIONS: This study, measuring the brain's metabolic response to acute receptor blockade, is a first step in the development of an assay of CNS pharmacological activity. By determining the response to neuroleptic challenge in a normal state, the study establishes a comparison group for determining response to challenge in various psychiatric conditions
PMID: 8166309
ISSN: 0002-953x
CID: 6319

Persistent psychosis after reduction in pre- and post-synaptic dopaminergic function

Wolkin A; Duncan E; Sanfilipo M; Wieland S; Cooper TB; Rotrosen J
The purpose of this study was to evaluate the hypothesis that neuroleptic non-response in the face of 'adequate' DA post-synaptic receptor blockade reflects failure of regulatory mechanisms to decrease DA pre-synaptic activity. Eight chronic schizophrenics, meeting rigorous criteria for neuroleptic non-response, were treated for four weeks with alpha-methylparatyrosine as an adjunct to their previously stable neuroleptic dose. Treatment with AMPT produced a prompt decrease in plasma HVA that was, on average, 72% lower at the end of the study. While there was also strong clinical evidence of reduction in central dopaminergic activity (both a significant reduction in dyskinetic movements and increase in extrapyramidal symptoms), there was virtually no change in severity of psychotic symptoms. Thus, in this group of non-responders, psychotic symptoms persisted despite both extensive dopamine post-synaptic receptor blockade and marked reduction of presynaptic activity. These symptoms may not be directly DA dependent
PMID: 7857586
ISSN: n/a
CID: 23584

Diminished cerebral metabolic response to motor stimulation in schizophrenics: a PET study

Guenther, W; Brodie, J D; Bartlett, E J; Dewey, S L; Henn, F A; Volkow, N D; Alper, K; Wolkin, A; Cancro, R; Wolf, A P
Positron emission tomography (PET) and the deoxyglucose method were used to measure cerebral metabolism in 14 normals and 13 schizophrenics at rest and during performance of simple and complex finger-movement sequences. The normals, but not the schizophrenics, showed significant metabolic activation in mesial frontal and contralateral sensorimotor and premotor regions during the complex movement. The relative metabolism of schizophrenics was significantly lower than normal in frontal regions and higher than normal in thalamus and basal ganglia under all scanning conditions. The results suggest that schizophrenics may have a brain dysfunction which limits their capacity to produce a focal metabolic response to stimulation in several functionally distinct brain regions
PMID: 7803524
ISSN: 0940-1334
CID: 76242

Elevated PLA2 activity in schizophrenics and other psychiatric patients

Noponen M; Sanfilipo M; Samanich K; Ryer H; Ko G; Angrist B; Wolkin A; Duncan E; Rotrosen J
We measured serum phospholipase A2 (PLA2) activity in 39 schizophrenics, 26 psychiatric controls, and 26 normal controls using a radioenzymatic assay with phosphatidylcholine as precursor. Serum PLA2 activity was significantly higher in schizophrenics (p = 0.002) and other psychiatric (including substance abusing) patients (p = 0.032) than in normal controls. Enzyme activity did not differ between the schizophrenic patients and psychiatric controls. Fifty-one percent of the schizophrenics and 46% of psychiatric controls had PLA2 values above the highest value for normal controls. In the psychiatric control group higher than normal PLA2 activities were observed in all diagnostic categories, including major depression, bipolar disorder, posttraumatic stress disorder (PTSD), and substance abuse. In the context of others' findings of increased circulating PLA2 in infectious and inflammatory conditions, these increases must be viewed as disease nonspecific. The significance of these changes and their relationship to other acute-phase protein changes needs to be clarified in future research
PMID: 8292693
ISSN: 0006-3223
CID: 23585

Plasma homovanillic acid in neuroleptic responsive and nonresponsive schizophrenics

Duncan E; Wolkin A; Angrist B; Sanfilipo M; Wieland S; Cooper TB; Rotrosen J
Changes in plasma homovanillic acid (HVA) were investigated in neuroleptic responsive and nonresponsive schizophrenics in order to delineate parameters of dopamine regulation, which may underlie differences in neuroleptic responsivity. Nineteen schizophrenics were treated with haloperidol for 6 weeks. HVA was sampled at baseline, 24 hr after initial neuroleptic dose, and after 6 weeks of treatment. Subjects were pretreated with debrisoquin in order to reduce the peripheral production of HVA. The responders had an initial rise in HVA at 24 hr after first neuroleptic dose, followed by a decline back to baseline over the 6 weeks of treatment. The nonresponders' HVA failed to rise at 24 hr after first neuroleptic dose. At 6 weeks of treatment their HVA had fallen to significantly below baseline. Thus, a rise in HVA 24 hr after the first dose of neuroleptic predicted treatment response; a fall in HVA at 6 weeks to below pretreatment values was associated with neuroleptic nonresponse
PMID: 8274579
ISSN: 0006-3223
CID: 57549

ACUTE CEREBRAL METABOLIC RESPONSE TO HALOPERIDOL - BIOCHEMICAL AND BEHAVIORAL CORRELATIONS [Meeting Abstract]

SIMKOWITZ, P; BARTLETT, EJ; BRODIE, JD; CONVIT, A; WOLKIN, A; FRIEDHOFF, AJ; DEWEY, SL; WOLF, AP
ISI:A1993LA41700114
ISSN: 0006-3223
CID: 54173