A multiple-dose pharmacodynamic, safety, and pharmacokinetic comparison of extended- and immediate-release formulations of lovastatin.

Background: Because lovastatin is efficiently extracted by the liver and because its administration in divided doses is associated with increased efficacy, an extended-release (ER) formulation may have the potential for a dose-sparing advantage relative to the immediate-release (IR) formulation in the treatment of hypercholesterolemia.

Objective: This study compared the short-term pharmacodynamics, safety, and pharmacokinetics of multiple doses of lovastatin ER with those of lovastatin IR in patients with fasting low-density lipoprotein cholesterol (LDL-C) levels between 130 and 250 mg/dL and fasting triglyceride levels < 350 mg/dL.

Methods: The study had a randomized, single-blind, positive-controlled, 2-way crossover design, with a 4-week diet/placebo run-in period and two 4-week active-treatment periods.

Comparative pharmacokinetics of lovastatin extended-release tablets and lovastatin immediate-release tablets in humans.

The pharmacokinetics of lovastatin and its active metabolite lovastatin acid was evaluated in 9 healthy subjects in a three-period crossover study following a single oral dose of lovastatin extended-release (ER) tablets and lovastatin immediate-release (IR) tablets. Participants were dosed with lovastatin IR 40 mg tablets following a standard breakfast, lovastatin ER 40 mg tablets following a standard breakfast, and lovastatin ER 40 mg tablets underfasting conditions. Serial plasma samples were collected for up to 48 hours postdose and assayed for lovastatin and lovastatin acid using a liquid chromatography/mass spectroscopy/mass spectroscopy method.

Application of a Stable Isotope Technique for the Bioequivalency Study of Two Transdermal Nitroglycerin Systems.

A bioequivalency study of an experimental transdermal nitroglycerin system relative to the commercial Transderm-Nitro 0.4 mg/h system was performed on eight healthy volunteers by using an innovative stable isotope technique. Plasma clearance changes for nitroglycerin (NTG) during patch application were corrected with simultaneously administered intravenous infusion of (15)N-labeled nitroglycerin ((15)N-NTG) solution.