Invasive Pharmacodynamics of Fosinopril in Patients with Congestive Heart Failure

Abstract

Five patients with NYHA Class III CHF received 5 mg of fosinopril on each of 4 days. Hemodynamics were measured with a Swan‐Ganz catheter after dosing on day 1. Measurements of plasma fosinoprilat, ACE activity, renin, and aldosterone were obtained. An E_max model was used to fit the effect‐site concentration and mean arterial pressure change. A linear model was used to fit the effect‐site concentration and the pulmonary artery wedge pressure (PAWP) change. At steady state on day 4, AUC_0–24 was 1668 ± 476 ng.hr/mL and C_max was 143.5 ± 33.6 ng/mL. The mean elimination half‐life of fosinoprilat was 11.3 ± 0.7 hours, and median T_max occurred at 3 hours, corresponding to maximum plasma ACE inhibition. Plasma renin activity was unchanged, and mean plasma aldosterone level declined. E_max modeling using fosinoprilat concentrations and mean arterial pressure showed good prediction of the pharmacodynamic effects from the effect‐site concentration. A linear relationship was observed between the effect‐site concentrations of fosinoprilat and PAWP. When expressed in an E_max model, the pharmacodynamic actions of fosinopril in patients with CHF are a reflection of its pharmacokinetics.