Pharmacokinetics and pharmacodynamics of physostigmine after intravenous administration in beagle dogs

The time course of physostigmine (Phy), its metabolites and activity of cholinesterase (ChE) in plasma were studied after intravenous bolus administration of [3H]Phy (100 micrograms/kg) to beagle dogs. The maximal inhibition of ChE (78%) in plasma at 2 min correlated with the largest concentration o...

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Published inNeuropharmacology Vol. 26; no. 7B; p. 831
Main Authors Giacobini, E, Somani, S, McIlhany, M, Downen, M, Hallak, M
Format Journal Article
LanguageEnglish
Published England 01.07.1987
Subjects
Animals
Body Water - metabolism
Brain - enzymology
Brain - metabolism
Cholinesterases - blood
Cholinesterases - metabolism
Dogs
Half-Life
Humans
Indoles - blood
Injections, Intravenous
Male
Mathematics
Physostigmine - administration & dosage
Physostigmine - blood
Physostigmine - pharmacokinetics
Rats
Tissue Distribution
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Summary:The time course of physostigmine (Phy), its metabolites and activity of cholinesterase (ChE) in plasma were studied after intravenous bolus administration of [3H]Phy (100 micrograms/kg) to beagle dogs. The maximal inhibition of ChE (78%) in plasma at 2 min correlated with the largest concentration of physostigmine (124 ng/ml). The concentration of physostigmine decreased by 88% to 16 ng/ml at 45 min when the activity of ChE was still 59% inhibited. Acetylcholinesterase activity in four regions of the brain (medulla, striatum, cerebellum and cortex) was not significantly different from controls at 70 +/- 5 min after administration of physostigmine. Concentrations of physostigmine and its metabolites determined by HPLC were not significantly different in different regions. In plasma, physostigmine was found, together with eseroline and two other metabolites M1 and M2. At 45 min, only 18% of total radioactivity was due to physostigmine and 52% was due to the major metabolite M1. On the contrary, in regions of the brain, metabolite M1 represented only 1.9-3.37% of total radioactivity at 70 +/- 5 min. Pharmacokinetic parameters, obtained in the dog, were compared to previously published data in rat and man. The elimination half-life (beta) was 30.7 min in the dog as compared to 15 min in rat and and 21.7 min in man. The Vd (ml/kg) was higher than total body water volume in all three species: dog (1832), rat (1352) and man (664), indicating sequestration of the drug in body compartments. Clearance (ml/min/kg) was found to be 41.2 in dog, which compares to 62 in rat and 22 in man.
ISSN:0028-3908
1873-7064
DOI:10.1016/0028-3908(87)90059-1