Pharmacokinetics and pharmacodynamics of bromocriptine in the rat

Abstract

The absorption, distribution, and excretion of bromocriptine were studied following oral and parenteral administration of non-radioactive and 14C-labelled drug in the rat. Total radioactivity was measured in blood, tissues, and excreta by liquid scintillation counting while the parent drug was determined in plasma and selected tissues by radioimmunoassay. The pharmacokinetic observations were compared with the time course of drug-induced hypothermia in cold-room acclimatized rats. The results indicated that oral doses of bromocriptine were rapidly, though incompletely (32-40 per cent), absorbed, but underwent extensive first-pass metabolism, resulting in an absolute bioavailability of only 6 per cent. The bioavailability increased to approximately 22 per cent in rats pretreated with the hepatic microsome inhibitor proadifen, thus suggesting the liver as the principal site of biotransformation. Absorbed bromocriptine showed preferential distribution into the tissues, although no apparent accumulation of drug-related material occurred in the body. The drug was eliminated almost exclusively by metabolism and biliary excretion into the faeces. Comparison of the pharmacodynamic and the pharmacokinetic profiles indicated a dose relationship between hypothermia and plasma bromocriptine concentrations but not total radioactivity levels. The hypothermic response was also intensified by proadifen pretreatment, thus confirming the parent drug as the pharmacologically active entity. It is believed that the previously reported delay in the onset of bromocriptine activity is not pharmacokinetic in nature, but is related to the properties of the receptors at the target site or to the pharmacologic events that result in the observed effects.