Interaction between doxorubicin and mitomycin C on mortality and myocardial contractility in guinea pig.

The present investigations were carried out in guinea pig to ascertain whether mitomycin C has a direct cardiotoxic effect or interacts with doxorubicin-induced cardiotoxicity. I.p. administration of mitomycin C did not modify the survival rate up to 30 days, whereas the combined administration of doxorubicin and mitomycin C significantly decreased the survival time in comparison to the doxorubicin-treated group. On isolated atria, mitomycin C did not cause significant inhibition of the contractile force or an enhancement of the doxorubicin-induced negative inotropic effect. These results do not support the possibility that mitomycin C potentiates the acute cardiotoxic effects produced by doxorubicin

IN-VITRO ACTIVITY OF TRIMETHOPRIM IN ASSOCIATION WITH SULFIMIDAZOLE AGAINST AEROBIC GRAM-NEGATIVE AND GRAM-POSITIVE MICROORGANISMS AND CLOSTRIDIA

The in vitro activity of a chemotherapeutic agent, sulfimidazole (SIZ), obtained by combining two molecules belonging to groups of extremely different antibacterial drugs, p-aminobenzene sulfonamide and a derivative with a 5-nitroimidazole ring, was studied. In association with trimethoprim, SIZ induces an intense synergistic antibacterial effect on gramnegative and gram-positive aerobic microorganisms and Clostridia. The results show that, in SIZ, the activity of each starting molecule remains unchanged providing that its structureaction relationship is kept intact

Influence of antimalarials chloroquine, quinine, primaquine and mepacrine on the evolution of Ehrlich ascites tumour

Substances like imidazoles, benzimidazoles and also quinolines, whose chemical structure includes a heterocyclic nitrogen, are known to interfere with the microsomal oxidation and, in some cases, with the metabolism of drugs. Since chloroquine and primaquine exert this effect in vivo and in vitro, we studied the influence of other antimalarials (quinine and mepacrine) in mice with induced Ehrlich ascites tumour (EAT) to find out whether variations in oxygen consumption affected the course of the disease. In vitro data, obtained by a polarographic technique, indicate that primaquine and, in particular, mepacrine increase EAT-cell oxygen consumption, while in vivo data, obtained in mice injected with an inoculum of about 1 x 10(6) tumour cells per mouse, show that both drugs, but notably mepacrine, accelerate tumour growth, as monitored by Cox's statistical method for body weight, and lead to earlier death. In cases of existing neoplasia, therefore, the potentially toxic effects of certain antimalarials must be borne in mind

Anticholinesterase activity of and possible ion-channel block by cimetidine, ranitidine and oxmetidine in the toad isolated rectus abdominis muscle

Clinical and Experimental Pharmacology and Physiology124353-357CEXP