Inna Perevozskaya scite author profile

Background-Ezetimibe has been shown to inhibit cholesterol absorption in animal models, but studies on cholesterol absorption in humans have not been performed thus far. Methods and Results-The effect of ezetimibe (10 mg/d) on cholesterol absorption and synthesis, sterol excretion, and plasma concentrations of cholesterol and noncholesterol sterols was investigated in a randomized, double-blind, placebo-controlled, crossover study in 18 patients with mild to moderate hypercholesterolemia. Treatment periods lasted 2 weeks with an intervening 2-week washout period. Fractional cholesterol absorption rates averaged 49.8Ϯ13.8% on placebo and 22.7Ϯ25.8% on ezetimibe, indicating a reduction of 54% (geometric mean ratio; PϽ0.001). Cholesterol synthesis increased by 89% from 931Ϯ1027 mg/d on placebo to 1763Ϯ1098 mg/d on ezetimibe (PϽ0.001), while the ratio of lathosterol-to-cholesterol, an indirect marker of cholesterol synthesis, was increased by 72% (PϽ0.001). Bile acid synthesis was insignificantly increased (placebo: 264Ϯ209 mg/d, ezetimibe: 308Ϯ184 mg/d; Pϭ0.068). Mean percent changes from baseline for LDL and total cholesterol after ezetimibe treatment were Ϫ20.4% and Ϫ15.1%, respectively (PϽ0.001 for both), whereas campesterol and sitosterol were decreased by Ϫ48% and Ϫ41%, respectively. Conclusion-In humans, ezetimibe inhibits cholesterol absorption and promotes a compensatory increase of cholesterol synthesis, followed by clinically relevant reductions in LDL and total cholesterol concentrations. Ezetimibe also reduces plasma concentrations of the noncholesterol sterols sitosterol and campesterol, suggesting an effect on the absorption of these compounds as well.

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Efficacy and safety of the coadministration of ezetimibe with fenofibrate in patients with mixed hyperlipidaemia

Farnier¹,

et al. 2005

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Efficacy and safety of the coadministration of ezetimibe/simvastatin with fenofibrate in patients with mixed hyperlipidemia

Farnier¹,

Roth

Gil‐Extremera

et al. 2007

American Heart Journal

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Bayesian Optimal Designs for Phase I Clinical Trials

2003

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A broad approach to the design of Phase I clinical trials for the efficient estimation of the maximum tolerated dose is presented. The method is rooted in formal optimal design theory and involves the construction of constrained Bayesian c- and D-optimal designs. The imposed constraint incorporates the optimal design points and their weights and ensures that the probability that an administered dose exceeds the maximum acceptable dose is low. Results relating to these constrained designs for log doses on the real line are described and the associated equivalence theorem is given. The ideas are extended to more practical situations, specifically to those involving discrete doses. In particular, a Bayesian sequential optimal design scheme comprising a pilot study on a small number of patients followed by the allocation of patients to doses one at a time is developed and its properties explored by simulation.

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