Investigation of binding process of chlorpromazine to bovine serum albumin by means of passive and active experiments.

The association process of chlorpromazine with bovine serum albumin by both onefactoral passive and multifactoral active experiments were investigated in model systems. The dependence of absolute concentration of the free fraction of chlorpromazine on the total concentration of chlorpromazine is described by the increasing function, but the dependence of the relative concentration (free/total) on this factor is influenced by external characteristics. The concentrations of chlorpromazine, bovine serum albumin and Tritons' mixture, as principal factors of a multifactoral experiment, influence the absolute and relative values of the free fraction of chlorpromazine non-additively, ie the interaction of factors is significant.

Cloud-point extraction for the determination of the free fraction of antiepileptic drugs in blood plasma and saliva.

A method for the determination of the free fraction of antiepileptic drugs in plasma and saliva was developed. The separation of free and protein-bound fractions was obtained by cloud-point extraction under optimum conditions of pH, surfactant type, and concentration. It is shown that the free fraction of carbamazepine and of phenobarbital in plasma coincides with the drug concentration in saliva. The dependence of the free fraction in plasma on the administered dose was studied. The influence of the simultaneous administration of the two drugs on their free concentrations was revealed: In the presence of carbamazepine the free fraction of phenobarbital is decreased markedly whereas phenobarbital does not influence the behavior of carbamazepine.

Interaction of carbamazepine and phenobarbital in rabbits.

The interaction of carbamazepine and phenobarbital in rabbits was investigated. The drugs were administered to the rabbit orally as a single dose. By simultaneous administration the sequence of drugs was varied, with an interval between doses of 15 min. The doses of carbamazepine and phenobarbital were 100 and 25 mg, respectively. It was established that phenobarbital appears to be an inductor for carbamazepine independently sequence of administration of the drugs. Carbamazepine reveals inductive properties for phenobarbital in the case where phenobarbital enteres in the organism first. It was ascertained also that, by simultaneous administration, these drugs reduce absorption of each other in plasma.

Interaction of carbamazepine and chlorpromazine in rabbits.

The interaction of carbamazepine and chlorpromazine in rabbits has been studied. The drugs were administrated as single oral doses (200 mg of each drug). The sequence of administration of the drugs was varied. It has been established that by simultaneous administration these drugs decrease absorption of each other in plasma. This may be explained by competition of the drugs to transfer from the gastrointestinal tract into plasma, as well as by the formation of complexes, more or less stable and more or less bound to gastrointestinal tissues. Carbamazepine intensifies the biotransformation of chlorpromazine, which may be caused by the ability of carbamazepine to induce microsomal liver enzymes. Chlorpromazine suppresses the biotransformation of carbamazepine, however. This may be caused by intensive capture of chlorpromazine by liver tissues and by its intensive biotransformation, which in turn is conditioned by its surface-active nature and by the increase of its metabolism with carbamazepine. Therefore the biotransformation of chlorpromazine is increased and metabolism of carbamazepine is reduced. The sequence of administration of the drugs affects their pharmacokinetics significantly.