| Literature DB >> 25693889 |
Daniël Kleinloog1, Anna Uit den Boogaard2, Albert Dahan3, René Mooren3, Erica Klaassen2, Jasper Stevens2, Jan Freijer2, Joop van Gerven4.
Abstract
The psychomimetic effects that occur after acute administration of ketamine can constitute a model of psychosis and antipsychotic drug action. However, the optimal dose/concentration has not been established and there is a large variety in outcome measures. In this study, 36 healthy volunteers (21 males and 15 females) received infusions of S(+)-ketamine or placebo to achieve pseudo-steady state concentrations of 180 and 360 ng/mL during two hours. The target of 360 ng/mL induced increasingly more intensive effects than expected, and the targets were subsequently reduced to 120 and 240 ng/mL, which were considered tolerable. There was a clear, concentration-dependent psychomimetic effect as shown on all subscales of the positive and negative syndrome scale (e.g. positive subscale +43.7%, 95%CI 34.4-53.7%, p < 0.0001 for 120 ng/mL and +70.5%, 95%CI 59.0-82.8%, p < 0.0001 for 240 ng/mL) and different visual analogue scales. The startle reflex was inhibited (prepulse inhibition) by both main target concentrations to a similar extent, suggesting a maximum effect. Ketamine was found to constitute a robust model for induction of psychomimetic symptoms and the optimal concentration range for a drug interaction study would be between 100 and 200 ng/mL.Entities:
Keywords: Clinical pharmacology; biomarkers; psychosis model; psychotic disorders; schizophrenia
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Year: 2015 PMID: 25693889 DOI: 10.1177/0269881115570082
Source DB: PubMed Journal: J Psychopharmacol ISSN: 0269-8811 Impact factor: 4.153