Masayuki Mogi scite author profile

To clarify species differences in the developmental toxicity of procymidone (Sumilex ® , a fungicide for agricultural use), placental transfer studies were conducted using 14 C-labeled procymidone in pregnant rats, rabbits, and monkeys. These studies demonstrated that maternal-to-fetal transfer of the parent compound and its hydroxylated metabolite, which are both weak anti-androgenic agents, occurred more easily than that of other metabolites, with much higher absolute concentrations achieved in the fetal circulation of rats than of rabbits or monkeys. Notably, in rats, the fetal plasma concentration of the hydroxylated metabolite was higher than that of procymidone, especially after repeated oral administration of procymidone. These results suggest that the hydroxylated metabolite is the most relevant metabolite involved in teratogenic activity in rats.

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Metabolism of AM404 From Acetaminophen at Human Therapeutic Dosages in the Rat Brain

Muramatsu¹,

Shiraishi²,

Miyano³

et al. 2016

Anesth Pain Med

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Background:Acetaminophen, an analgesic and antipyretic drug, has been used clinically for more than a century. Previous studies showed that acetaminophen undergoes metabolic transformations to form an analgesic compound, N-(4-hydroxyphenyl) arachidonamide (AM404), in the rodent brain. However, these studies were performed with higher concentrations of acetaminophen than are used in humans.Objectives:The aim of the present study was to examine the metabolism of AM404 from acetaminophen in the rat brain at a concentration of 20 mg/kg, which is used in therapeutic practice in humans, and to compare the pharmacokinetics between them.Materials and Methods:We used rat brains to investigate the metabolism of AM404 from acetaminophen at concentrations (20 mg/kg) used in humans. In addition, we determined the mean pharmacokinetic parameters for acetaminophen and its metabolites, including AM404.Results:The maximum plasma concentrations of acetaminophen and AM404 in the rat brain were 15.8 µg/g and 150 pg/g, respectively, with corresponding AUC0-2h values of 8.96 μg hour/g and 117 pg hour/g. The tmax for both acetaminophen and AM404 was 0.25 hour.Conclusions:These data suggest that AM404’s concentration-time profile in the brain is similar to those of acetaminophen and its other metabolites. Measurement of blood acetaminophen concentration seems to reflect the concentration of the prospective bioactive substance, AM404.

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Species differences in the developmental toxicity of procymidone —Remarkable variation in pharmacokinetics, metabolism, and excretion—

Tomigahara

Tarui

Nagahori

et al. 2017

Jpn. J. Pestic. Sci.

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High-Performance Liquid Chromatographic Method for the Determination of Fenofibric Acid and Reduced Fenofibric Acid in Human Blood, Plasma and Urine

Abe¹,

Ono²,

Mogi³

et al. 1998

YAKUGAKU ZASSHI

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Masayuki Mogi

Simultaneous pharmacokinetics assessment of caffeine, warfarin, omeprazole, metoprolol, and midazolam intravenously or orally administered to Microminipigs

Species differences in the developmental toxicity of procymidone—Placental transfer of procymidone in pregnant rats, rabbits, and monkeys—

Metabolism of AM404 From Acetaminophen at Human Therapeutic Dosages in the Rat Brain

Species differences in the developmental toxicity of procymidone —Remarkable variation in pharmacokinetics, metabolism, and excretion—

High-Performance Liquid Chromatographic Method for the Determination of Fenofibric Acid and Reduced Fenofibric Acid in Human Blood, Plasma and Urine

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