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JOURNAL ARTICLE
RESEARCH SUPPORT, NON-U.S. GOV'T
SYSTEMATIC REVIEW
Dissociation in Pharmacokinetic Attenuation Between Central Dopamine D2 Receptor Occupancy and Peripheral Blood Concentration of Antipsychotics: A Systematic Review.
Journal of Clinical Psychiatry 2020 July 29
OBJECTIVE: The objective of this study was to examine the extent of possible dissociation in pharmacokinetic decay between central dopamine D₂ receptor occupancy with antipsychotics and their peripheral blood concentrations.
DATA SOURCES: MEDLINE and Embase were searched using the following keywords: (positron emission tomography OR PET OR single-photon emission computed tomography OR SPECT) AND (dopamine OR D2) AND (receptor* OR occupanc*) AND antipsychotic*, with a limitation of English language (last search: December 14, 2019).
STUDY SELECTION: The search identified 18 studies that met the following criteria: (1) including patients with schizophrenia spectrum disorders and/or healthy subjects, (2) using positron emission tomography or single-photon emission computed tomography, and (3) examining the time courses of D₂ occupancy with antipsychotics and their blood concentrations.
DATA EXTRACTION: The ratios of D₂ occupancy reduction rate (%) from peak to blood concentration reduction rate (%) from peak (relative attenuation ratio) were calculated.
RESULTS: Among the studies, oral risperidone, olanzapine, quetiapine, aripiprazole, ziprasidone, perospirone, haloperidol, sulpiride, and clozapine and long-acting injectable risperidone and haloperidol were included. Relative attenuation ratios were less than 1, indicating a slower central versus peripheral attenuation, across the time points for all antipsychotic types and doses with only a few exceptions. The ratio decreased in a dose-dependent as well as a peak D₂ occupancy-dependent fashion. It contrarily increased in a time-dependent manner.
CONCLUSIONS: The findings indicate pharmacokinetic attenuation of antipsychotics was generally slower at the central versus the peripheral level and pose a critical challenge to the current dosing strategy that primarily relies on peripheral pharmacokinetics of antipsychotics.
DATA SOURCES: MEDLINE and Embase were searched using the following keywords: (positron emission tomography OR PET OR single-photon emission computed tomography OR SPECT) AND (dopamine OR D2) AND (receptor* OR occupanc*) AND antipsychotic*, with a limitation of English language (last search: December 14, 2019).
STUDY SELECTION: The search identified 18 studies that met the following criteria: (1) including patients with schizophrenia spectrum disorders and/or healthy subjects, (2) using positron emission tomography or single-photon emission computed tomography, and (3) examining the time courses of D₂ occupancy with antipsychotics and their blood concentrations.
DATA EXTRACTION: The ratios of D₂ occupancy reduction rate (%) from peak to blood concentration reduction rate (%) from peak (relative attenuation ratio) were calculated.
RESULTS: Among the studies, oral risperidone, olanzapine, quetiapine, aripiprazole, ziprasidone, perospirone, haloperidol, sulpiride, and clozapine and long-acting injectable risperidone and haloperidol were included. Relative attenuation ratios were less than 1, indicating a slower central versus peripheral attenuation, across the time points for all antipsychotic types and doses with only a few exceptions. The ratio decreased in a dose-dependent as well as a peak D₂ occupancy-dependent fashion. It contrarily increased in a time-dependent manner.
CONCLUSIONS: The findings indicate pharmacokinetic attenuation of antipsychotics was generally slower at the central versus the peripheral level and pose a critical challenge to the current dosing strategy that primarily relies on peripheral pharmacokinetics of antipsychotics.
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