Pharmacokinetics of acetohydroxamic acid in patients with staghorn renal calculi.

Abstract

Acetohydroxamic acid (AHA), a bacterial urease inhibitor, has been recently approved by the United States Food and Drug Administration as a potential drug for the successful treatment of patients with infection induced staghorn renal calculi. The present study was designed to evaluate the disposition of 14C-AHA following oral administration to patients. The results of the study, while in a limited number of patients, indicate that upon oral administration, AHA is very rapidly absorbed from the gastrointestinal tract. Evaluation of urinary excretion data suggests that patients with compromised renal function have low recoveries of AHA in the urine. These data are supported by a strong linear correlation between creatinine clearance and AHA elimination. Acetamide and CO2 are identified as the two major metabolites of AHA in man. CO2 is eliminated in the breath and accounts for 20-45% of the administered dose, while acetamide is eliminated in the urine and accounts for only 9-14% of the administered dose. The remaining dose is eliminated as intact AHA in the urine (19-48%). Saliva concentrations of total radioactivity depict a strong positive correlation with their respective plasma concentrations. Parameter estimates from 14CO2 concentrations in breath as a function of time data closely correspond to the pharmacokinetic parameters of AHA in patients indicating that CO2 may be a primary metabolite derived directly from AHA rather than a secondary metabolite formed by the metabolism of an intermediate product. Upon multiple dose administration of AHA, there is the potential for significant accumulation of acetamide due to its relatively long half-life.