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Behavioural, Pharmacokinetic, Metabolic, and Hyperthermic Profile of 3,4-Methylenedioxypyrovalerone (MDPV) in the Wistar Rat

Rachel R. Horsley, Eva Lhotková, Kateřina Hájková, Barbara Feriančiková, Michal Himl, Martin Kuchař, Tomáš Páleníček

Frontiers in Psychiatry April 24, 2018 DOI: 10.3389/fpsyt.2018.00144 via OpenAlex

Summary

MDPV, a potent synthetic cathinone, is rapidly absorbed after subcutaneous injection in male Wistar rats, reaching peak concentrations in serum, brain, and lungs within 30 minutes. It readily crosses the blood-brain barrier, with a brain-to-serum ratio of about 2 lasting for roughly 120 minutes. The drug is primarily excreted as metabolites, with demethylenyl-MDPV and demethylenyl-methyl-MDPV levels three to four times higher than the parent drug in urine. MDPV acts as a typical stimulant, producing locomotor activation, disrupted spatial behavior, moderate hyperthermia (exacerbated in group-housed animals), and transient disruption of prepulse inhibition at 4 mg/kg, consistent with a dopaminergic mechanism. No specific signs of acute toxicity were observed at the doses used.

Study at a glance

Characteristics Observational study Peer reviewed
Population Male Wistar rats
Interventions 3 4-methylenedioxypyrovalerone (MDPV)
Dose 1-4 mg/kg
Duration 6 hours for pharmacokinetics, 12 hours for thermoregulation, 24 hours for urinary metabolites
Keywords Pharmacokinetics Pharmacology Thermoregulation Cathinone Open field
Citations 20
Key finding MDPV is rapidly absorbed, readily crosses the blood-brain barrier, acts as a typical stimulant with modest hyperthermic and psychomimetic properties, and is excreted primarily as metabolites.

Abstract

3,4-methylenedioxypyrovalerone (MDPV) is a potent pyrovalerone cathinone that is substituted for amphetamines by recreational users. We report a comprehensive and detailed description of the effects of subcutaneous MDPV (1-4 mg/kg) on pharmacokinetics, biodistribution and metabolism, acute effects on thermoregulation under isolated and aggregated conditions, locomotion (open field) and sensory gating (prepulse inhibition, PPI). All studies used male Wistar rats. Pharmacokinetics after single dose of 2 mg/kg MDPV was measured over 6 h in serum, brain and lungs. The biotransformation study recorded 24 h urinary levels of MDPV and its metabolites after 4 mg/kg. The effect of 2 mg/kg and 4 mg/kg on body temperature (°C) was measured over 12 h in group- vs. individually-housed rats. In the open field, locomotion (cm) and its spatial distribution were assessed. In PPI, acoustic startle response (ASR), habituation, and PPI were measured (AVG amplitudes). In behavioural experiments, 1, 2, or 4 mg/kg MDPV was administered 15 or 60 min prior to testing. Thermoregulation and behavioural data were analysed using factorial analysis of variance (ANOVA). Peak concentrations of MDPV in sera, lung and brain tissue were reached in under 30 min. While negligible levels of metabolites were detected in tissues, the major metabolites in urine were demethylenyl-MDPV and demethylenyl-methyl-MDPV at levels three-four times higher than the parent drug. We also established a MDPV brain/serum ratio ~2 lasting for ~120 min, consistent with our behavioural observations of locomotor activation and disrupted spatial distribution of behaviour as well as moderate increases in body temperature (exacerbated in group-housed animals). Finally, 4 mg/kg induced stereotypy in the open field and transiently disrupted PPI. Our findings, along with previous research suggest that MDPV is rapidly absorbed, readily crosses the blood-brain barrier and is excreted primarily as metabolites. MDPV acts as a typical stimulant with modest hyperthermic and psychomimetic properties, consistent with a primarily dopaminergic mechanism of action. Since no specific signs of acute toxicity were observed, even at the highest doses used, clinical care and harm-reduction guidance should be in line with that available for other stimulants and cathinones.

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