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Pharmacokinetics, tissue distribution and placental permeability of tetrahydro-tetramethyl-naphthalenyl-propenyl benzoic acid (a retinoidal benzoic acid derivative) in hamsters

Tritiated tetrahydro-tetramethyl-naphthalenyl-propenyl benzoic acid (TTNPB; Ro 13-7410) was administered as a single oral bolus to pregnant hamsters (day 8) to determine the maternal plasma pharmacokinetic profile and peripheral tissue distribution patterns. Blood and tissue, including embryo or fet...

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Bibliographic Details
Published in:European journal of drug metabolism and pharmacokinetics 1989-04, Vol.14 (2), p.153-159
Main Authors: HOWARD, W. B, WILLHITE, C. C, SHARMA, R. P, OMAYE, S. T, HATORI, A
Format: Article
Language:English
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Summary:Tritiated tetrahydro-tetramethyl-naphthalenyl-propenyl benzoic acid (TTNPB; Ro 13-7410) was administered as a single oral bolus to pregnant hamsters (day 8) to determine the maternal plasma pharmacokinetic profile and peripheral tissue distribution patterns. Blood and tissue, including embryo or fetus, were collected at specific time intervals to 96 h and assayed for total radioactive compounds and/or parent retinoid. No lag time was required to describe retinoid absorption (t 1/2 pi = 1.2 h) with peak plasma levels at 2.4 h; the concentrations then declined with exponential elimination from the central compartment (t 1/2 e = 3 h). The maximum concentrations of circulating radioactive compound or metabolites after 100 micrograms/kg [3H]2-TTNPB occurred in liver greater than fetus greater than adrenal greater than lung approximately equal to kidney greater than plasma; after 1000 micrograms/kg, maternal liver accumulated the highest concentration followed by plasma greater than fetus = placenta = uterus. An unidentified, polar metabolite was detected in plasma at 0.5 h and by 12 h constituted greater than 90% of the total circulating radioactivity. TTNPB was absorbed and cleared more slowly, concentrated in the conceptus to a higher degree and possessed greater intrinsic activity than the naturally-occurring tetraene retinoids. These properties contribute to the marked teratogenic activity of TTNPB as compared to the tetraene retinoids.
ISSN:0378-7966
2107-0180
DOI:10.1007/BF03190856