Population pharmacokinetics of R- and S-carvedilol in Japanese patients with chronic heart failure.

Carvedilol is a beta-adrenoceptor antagonist used for treating chronic heart failure (CHF). Two clinical studies were conducted to evaluate the population pharmacokinetics and pharmacodynamics of R- and S-carvedilol, and associated covariates, in patients with CHF. Fifty-eight patients (male=45, female=13) with New York Heart Association class I-IV CHF were enrolled in two clinical studies. R- and S-carvedilol concentrations were measured using HPLC at steady-state after oral administration of carvedilol at 1.25-20 mg o.d. or b.i.d. The data from both studies were used to estimate the population pharmacokinetic parameters and covariates using the nonlinear mixed effects model program. For 40 patients evaluated in one clinical study, the cytochrome P450 (CYP)2D6 *1, *10, and *5 genotypes were determined using allele-specific primer PCR, and individual patients' oral clearance (CL/F) of both enantiomers were estimated by the empirical Bayes method. A one-compartment model with a first-order absorption rate was established, in which body weight and alpha(1)-acid glycoprotein were significant covariates. Individual CL/F values for carvedilol were significantly lower in Japanese CHF patients with the CYP2D6 *1/*5, *5/*10 and *10/*10 genotypes. Estimation of the population pharmacokinetic parameters and their covariates for each enantiomer in Japanese patients with CHF showed that the CL/F values for R- and S-carvedilol were dependent on body weight, alpha(1)-acid glycoprotein, and CYP2D6 genotype. Prediction of exposure to free plasma carvedilol is important for dosage adjustment of beta-blocker therapy in patients with CHF.

Comparison of pharmacodynamics between carvedilol and metoprolol in rats with isoproterenol-induced cardiac hypertrophy: effects of carvedilol enantiomers.

A recent clinical study has shown that carvedilol has a significantly more favorable effect than metoprolol on survival rate in patients with heart failure. This may be due to actions of carvedilol such as beta(2)-adrenoceptor blockade, alpha-adrenergic receptor blockade and other properties such as anti-oxidant effects that are not yet fully understood. We compared the effects of racemic carvedilol, metoprolol and carvedilol enantiomers on cardiac hypertrophy at similar heart rate in rats with isoproterenol-induced cardiac hypertrophy. Continuous administration of isoproterenol for 2 weeks produced heart failure, which is characterized by an increased heart rate, cardiac hypertrophy and downregulation of beta-adrenoceptors. The doses of racemic carvedilol and metoprolol were adjusted to obtain a similar heart rate in rats with isoproterenol-induced cardiac hypertrophy. The reduction of left ventricular weight and improvement of cAMP production induced by carvedilol were superior to those induced by metoprolol. Although heart rate, blood pressure and cAMP production were not affected by R-carvedilol, left ventricular weight was significantly reduced as a result of alpha-adrenoceptor blockade. The improvement of cAMP production by S-carvedilol was significantly higher than that induced by coadministration of R-carvedilol and metoprolol, suggesting that beta(2)-adrenoceptor blockade partly contributed to the improvement of signal transduction in rats with isoproterenol-induced cardiac hypertrophy. This study has demonstrated that the effects of carvedilol on cAMP production and cardiac hypertrophy in rats with isoproterenol-induced cardiac hypertrophy are superior to those induced by metoprolol at a similar heart rate.

VKORC1 gene variations are the major contributors of variation in warfarin dose in Japanese patients.

OBJECTIVES: To compare the genetic and clinical factors that cause large interpatient variability and ethnic differences in warfarin efficacy, we investigated variations of the VKORC1, CYP2C9, and CYP2C19 genes in Japanese subjects. Furthermore, we evaluated the genetic variations and clinical data as contributors of variation in warfarin maintenance dose. METHODS: Gene variations of VKORC1, CYP2C9, and CYP2C19 in 125 patients treated with warfarin and 114 healthy subjects were analyzed. The daily dose of warfarin, concentrations of S- and R-warfarin in plasma, and prothrombin time expressed as the international normalized ratio were used as the pharmacokinetic and pharmacodynamic indices. Data were evaluated by a multivariate analysis method. RESULTS: Three missense mutations (47 G>C, 113 A>C, and 1338 A>G) in VKORC1 were newly identified in the Japanese population. The 113 A>C (Asp38Ser) variant decreased the warfarin dose requirement from 3.33 +/- 1.54 mg/d (n = 122) to 1.5 mg/d (n = 1). The variants -1639 G>A in the 5'-upstream region, 1173 C>T in intron 1, and 1542 G>C in intron 2 were in complete linkage disequilibrium, and the frequency of the -1639 G>A variation was only 0.8%, which contrasts with the frequency (39.8%-45.8%) reported previously for white persons. The dose of warfarin was larger in the VKORC1 -1639 GA genotype group (4.55 +/- 1.75 mg/d, P < .001) than in the -1639 AA group (2.94 +/- 1.15 mg/d). The mean daily dose of warfarin was lower in subjects with CYP2C9*1/*3 (1.86 +/- 0.80 mg/d, P = .007) than in subjects with CYP2C9*1/*1 (3.36 +/- 1.43 mg/d). When the relative contributions of the VKORC1 variants, CYP2C9*2, CYP2C9*3, CYP2C19*2, and CYP2C19*3, as well as the clinical characteristics of the patients, diagnoses, and concurrent medications, were compared, the VKORC1 -1639 GA genotype group accounted for 16.5% and CYP2C9 variants accounted for 13.4% of variation in warfarin dose. CONCLUSION: The ethnic difference in warfarin maintenance dose was mainly dependent on the linked VKORC1 variants. Genotyping of -1639 G>A of the VKORC1 gene could be clinically important for predicting individual variability in anticoagulant responses to warfarin.

Enantioselective and highly sensitive determination of carvedilol in human plasma and whole blood after administration of the racemate using normal-phase high-performance liquid chromatography.

A highly sensitive HPLC method for enantioselective determination of carvedilol in human whole blood and plasma was developed. Carvedilol and S-carazolol as an internal standard extracted from whole blood or plasma were separated using an enantioselective separation column (Chiralpak AD column; 2.0 diameter x 250 mm) without any chiral derivatizations. The mobile phase was hexane:isopropanol:diethylamine (78:22:1, v/v). The excitation and emission wavelengths were set at 284 and 343 nm, respectively. The limits of quantification for the S(-)- and R(+)-carvedilol enantiomers in plasma and blood were both 0.5 ng/ml. Intra- and inter-day variations were less than 5.9%. As an application of the assay, concentrations of carvedilol enantiomer in plasma and blood samples from 15 patients treated with carvedilol for congestive heart failure were determined.