Hydralazine

Chemical formula: C₈H₈Nâ‚„  Molecular mass: 160.176 g/mol  PubChem compound: 3637

Mechanism of action

Hydralazine is a direct acting vasodilator which exerts its effects principally on the arterioles. Its precise mode of action is not known.

Pharmacodynamic properties

Pharmacodynamic effects

Administration of hydralazine produces a fall in peripheral resistance and a decrease in arterial blood pressure, effects which induce reflex sympathetic cardiovascular responses. The concomitant use of a beta-blocker will reduce these reflex effects. and enhance the anti-hypertensive effect. The use of hydralazine can result in sodium and fluid retention, producing oedema and reduced urinary volume. These effects can be prevented by concomitant administration of a diuretic.

Pharmacokinetic properties

Absorption

Orally administered hydralazine is rapidly and completely absorbed but is subject to a dose dependent first pass effect (systemic bioavailability: 26-55%) which is dependent upon the individual’s acetylator status. Peak plasma concentrations are attained after 0.5 to 1.5 hours.

Distribution

Hydralazine is rapidly distributed in the body and displays a particular affinity for the blood vessel walls. Plasma protein binding is of the order of 90%. Within 24 hours after an oral dose, the quantity recovered in the urine averages 80% of the dose.

Biotransformation

None stated.

Elimination

Hydralazine appears in the plasma chiefly in the form of a readily hydrolysable conjugate with pyruvic acid. Plasma half-life averages 2-3 hours but is prolonged up to 16 hours in severe renal failure (creatinine clearance less than 20 ml/mm) and shortened to approximately 45 minutes in rapid acetylators.

The bulk of the dose is excreted as acetylated and hydroxylated metabolites, some of which are conjugated with glucoronic acid.

Characteristics in patients

None stated.

Preclinical safety data

Hydralazine has been found to be teratogenic in mice producing a small incidence of cleft palate and certain other bony malformations, in oral doses ranging from 20-120mg/kg i.e. 20-30 times the maximum human daily dose. It was not teratogenic in rats or rabbits.

In high (cyto-) toxic concentrations, hydralazine induces gene mutations in single cell organisms and in mammalian cells in vitro. No unequivocally mutagenic effects have been detected in vivo in a great number of test systems.

Hydralazine in lifetime carcinogenicity studies, caused, towards the end of the experiments, small but statistically significant increases in lung tumours in mice and in hepatic and testicular tumours in rats. These tumours also occur spontaneously with fairly high frequency in aged rodents.

With due consideration of these animals and in-vitro toxicological findings, hydralazine in therapeutic doses does not appear to bear risk that would necessitate a limitation of its administration. Many years of clinical experience have not suggested that human cancer is associated with hydralazine use.

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