Influence of ALDH2 genetic polymorphisms on aciclovir pharmacokinetics following oral administration of valaciclovir in Japanese end-stage renal disease patients.

This study was performed to investigate the pharmacokinetics of valaciclovir (VACV), aciclovir (ACV) and 9-(carboxymethoxy)methylguanine (CMMG) in Japanese chronic hemodialysis patients following a single oral administration of 1000 mg VACV and the influence of genetic polymorphisms of aldehyde dehydrogenase-2 (ALDH2) on their pharmacokinetics. A total of eighteen individuals genotyped as ALDH2*1/*1, ALDH2*1/*2 or ALDH2*2/*2 were enrolled in this study. Blood samples were obtained pre-dose and up to 48 hour post-dose. ACV t(1/2) was significantly affected by ALDH2 genotype and prolonged in the order of ALDH2*1/*1 (18.1 hr)

Prediction of pharmacokinetics of antibiotics in patients with end-stage renal disease.

A novel and convenient method to predict the pharmacokinetics of several kinds of antibiotic agents in patients with end-stage renal disease (ESRD) was examined based on the in vitro extraction ratios and pharmacokinetic parameters in healthy volunteers. The dializability of 17 antibiotic agents in 4% human serum albumin solution were determined using a high-performance hemodialytic membrane for clinical use. We assumed that the off-hemodialysis clearance approximated the non-renal clearance, while the on-hemodialysis clearance was considered to be sum of the off-hemodialysis clearance and the hemodialytic clearance. The estimated on- and off-hemodialysis clearances were compared with the ones observed in ESRD patients. In order to confirm the method prospectively, an in vivo pharmacokinetic study was performed in dogs with mercury chloride-induced experimental renal failure. The in vitro extraction ratios of 9 beta-lactams were broadly ranged from 10.9 to 75.6% depending on their physicochemical properties. In contrast, those of the other antibiotics were consistent with their chemical classes: 60.5-63.2% for fluoroquinolone, 48.8-51.1% for aminoglycoside and 18.7-25.6% for glycopeptide. Both the estimated on- and off-hemodialysis clearances of the 17 antibiotics coincided well with the observed values in the literature, regardless of their physicochemical and pharmacokinetic properties. The validity and applicability of this method to three cefems, cefmetazole, cefotaxime and cefoperazone, was prospectively confirmed in the animal study. In conclusion, this new method enables the prediction of the on- and off-hemodialysis clearances of several kinds of antibiotics in ESRD patients from minimal information of their pharmacokinetics in healthy subjects and their in vitro dializability.

Dihydropyrimidine dehydrogenase activity in 150 healthy Japanese volunteers and identification of novel mutations.

PURPOSE: Dihydropyrimidine dehydrogenase (DPD) is the initial and rate-limiting enzyme catalyzing the metabolic degradation of the anticancer drug 5-fluorouracil (5-FU). Population studies of DPD activity in peripheral blood mononuclear cells (PBMC) were reported in healthy volunteers and cancer patients. Although these studies were done in mainly Caucasian and African American populations, only a little information is available for a Japanese population. EXPERIMENTAL DESIGN: One hundred fifty healthy Japanese volunteers were screened for a population distribution of PBMC-DPD activity. Genetic analysis of a volunteer with very low DPD activity was carried out by reverse transcriptase-PCR and genomic sequencing. Bacterially expressed recombinant mutant DPD proteins were purified and characterized. RESULTS: Mean and median values of PBMC-DPD activity for 5-FU reduction in the study population were 0.173 and 0.166 nmol/min/mg protein, respectively. A 57-year-old female volunteer (proband in this study) had very low DPD activity (0.014 nmol/min/mg protein) with a very low level of expression of DPD protein. Two novel nucleotide substitutions, at nucleotide positions 1097 (1097G > C) and 2303 (2303C > A), resulting in amino acid substitutions at positions 366 (G366A) and 768 (T768K), respectively, were identified. The G366A mutation caused not only a marked decrease in the affinity of the enzyme to cofactor NADPH but also reduced Vmax for 5-FU-reducing activity to approximately 0.5. T768K mutant lost its activity much faster than did wild DPD. CONCLUSIONS: We found one healthy volunteer (0.7% of the population) with very low PBMC-DPD activity due to heterozygosity for a mutant allele of the DPYD gene in a population of 150 Japanese.

Pharmacokinetics of panipenem/betamipron in patients with end-stage renal disease.

Panipenem/betamipron (Carbenin), a parenteral carbapenem antibiotic, is used for the treatment of severe and intractable bacterial infections caused by gram-positive and gram-negative bacteria. Because 30% of panipenem and most of the betamipron are excreted in the urine in an unchanged form, renal function is the important determinant of the dosage regimen of panipenem/betamipron. In this study, the pharmacokinetics of panipenem/betamipron were investigated in patients with end-stage renal disease (ESRD) undergoing hemodialysis treatment to establish an appropriate dose regimen. We further attempted to predict the in vivo clearance in patients undergoing hemodialysis based on the in vitro dializability. The pharmacokinetics of panipenem/betamipron were investigated in eight patients after a 1-h intravenous infusion of panipenem/betamipron (500 mg/500 mg). The in vitro extraction ratios of panipenem/betamipron through a high-flux dialyzer were obtained, and compared with those obtained in vivo. The clearances of panipenem in patients were 9.53 +/- 1.26 l/h with hemodialysis, and 2.92 +/- 0.238 l/h without hemodialysis. In contrast, those of betamipron were 4.18 +/- 0.643 l/h and 0.615 +/- 0.511 l/h, respectively. The clearance of panipenem with hemodialysis were predicted well from in vitro extraction ratios, while that of betamipron was overestimated about 1.4-fold, probably due to high plasma protein binding and the binding difference between patients and healthy subjects. After comparing the pharmacokinetic behavior of panipenem in patients with ESRD and that of a surrogate marker of efficacy, we recommend that these patients be treated with 500 mg/500 mg of panipenem/betamipron once daily, which gives a similar clinical result in a patient with normal renal function.

A comparison of the bioequivalence of two formulations of epoetin alfa after subcutaneous injection.

BACKGROUND: The previous formulation of epoetin alfa in Japan was a citrate-buffered protein solution containing gelatin hydrolysate as the protein protective agent. To eliminate pain at injection sites, and the risks of anaphylactic shock and unknown infections by gelatin we have developed a new formulation of phosphate-buffered epoetin alfa, which does not contain gelatin hydrolysate. AIM: To compare the bioequivalence of two formulations of epoetin alfa administered by the subcutaneous route. METHODS: Four separate studies were performed to assess the bioequivalence of two epoetin alfa formulations using different strength and doses, i.e. 750 IU per 0.5 ml x 0.5 ml (= 750 IU per subject), 750 IU per 0.5 ml x 4 ml (= 6000 IU per subject), 6000 IU per 0.5 ml x 0.5 ml (= 6000 IU per subject) and 24,000 IU per 0.5 ml x 0.125 ml (= 6000 IU per subject). Each study was a single-centre, open-label, randomized, two-treatment, two-period, crossover study for which healthy volunteers were enrolled. Bioequivalence was assessed using the confidence interval (CI) of the ratios for the log-transformed, baseline-corrected Cmax and AUC(0,t). Baseline-corrected AUC(0,t) was calculated using the following equation: AUC(0,t) = AUC(0,t), uncorrected -- predose level x observation period. RESULTS: The ratios (gelatin-free/gelatin-containing) for the log-transformed Cmax and AUC(0,t) after 6000 IU per subject injection of three different concentrations of epoetin alfa were well within the usual range for bioequivalence (90% CI 0.8, 1.25). The 90% CI of the ratio for Cmax after 750 IU per subject injection was 0.906, 1.24, which was within the bioequivalence range. However, the ratio for AUC(0,t) was not determined in this lowest dose because of negative AUC(0,t) values obtained in 12/60 cases. The overall safety data were consistent with those expected for a healthy study population, and did not present any concerns suggestive of adverse effects due to either formulation. CONCLUSIONS: The point estimates and 90% CIs of the ratios of Cmax and AUC(0,t) for the gelatin-free/gelatin-containing formulations indicated that the two formulations are bioequivalent.

The calcimimetic agent KRN 1493 lowers plasma parathyroid hormone and ionized calcium concentrations in patients with chronic renal failure on haemodialysis both on the day of haemodialysis and on the day without haemodialysis.

AIMS: Treatment with vitamin D sterols can lower plasma parathyroid hormone (PTH) in patients with secondary hyperparathyroidism; however, hypercalcaemia, hyperphosphataemia, or both, often develop. Calcimimetic agents, employed in alternative therapeutic approaches, directly inhibit PTH secretion by activating the calcium-sensing receptor in the parathyroid glands. METHODS: In this study, patients were given orally 25, 50, and 100 mg doses of the calcimimetic agent KRN 1493 each on two occasions, on the day of haemodialysis and on the day without haemodialysis. RESULTS: In the pharmacokinetic results, because the clearance of KRN 1493 by haemodialysis was much smaller than the systemic clearance, the influence of haemodialysis was not remarkable. In the pharmacodynamic study, on both the days with or without haemodialysis, plasma PTH concentrations decreased in a dose-dependent manner. Serum calcium concentrations decreased in association with the decrease in plasma PTH concentrations. Mild dose-dependent adverse effects (mainly nausea) were seen after the administration of KRN 1493 on both the day of haemodialysis and the day without haemodialysis. CONCLUSIONS: We conclude that the pharmacokinetics of KRN 1493 after a single administration were similar on the day of haemodialysis and the day without haemodialysis. KRN 1493 is safe and effective in suppressing PTH secretion and serum calcium concentrations on the day of haemodialysis and on the day without haemodialysis in patients with secondary hyperparathyroidism.

Effects of SCH27899 (Ziracin), an oligosaccharide everninomicin antibiotic, on urate kinetics in humans.

OBJECTIVE: Intravenous administration of an everninomicin antibiotic, SCH27899 (Ziracin), in healthy subjects caused a marked decrease in serum urate by increasing its urinary excretion, as well as an increase in serum bilirubin in a dose-dependent manner. To clarify the underlying mechanism, a crossover study and an in vitro study were conducted. METHODS: Crossover study was performed in nine healthy male volunteers over three periods by administering SCH27899 (1-h i.v. infusion of 3 mg/kg) alone, probenecid (2000 mg, p.o.) alone and their combination. Also, an in vitro experiment was conducted using rat brush-border membrane vesicles to elucidate the effect of SCH27899 on urate transport across renal tubular epithelium. RESULTS: SCH27899 alone and probenecid alone showed a uricosuric, serum urate-lowering effect, and, when given in combination, the effects on serum urate appeared to be additive, as indicated in the earlier phase, prior to the peaks of respective drug effects. Serum and urinary concentrations of SCH27899 were not influenced by the co-administration of probenecid. Serum bilirubin was also significantly increased by both SCH27899 alone and in combination with probenecid. The SCH27899-probenecid combination additive effect on serum bilirubin did not reach significance. SCH27899, probenecid and losartan, an angiotensin-II-receptor antagonist possessing a uricosuric effect, significantly inhibited (14)C-urate uptake into the vesicles, which was dependent on the pH gradient across the membrane; whereas, vancomycin did not. CONCLUSION: It is concluded that SCH27899 itself contributes, at least in part, to a uricosuric effect following i.v. infusion. However, some metabolite(s) may also contribute to this, since the degree of urate-uptake inhibition by SCH27899 was less than probenecid and losartan, and the serum urate-lowering effect was delayed and prolonged compared with the time profile of serum concentration.

Pharmacokinetic and pharmacodynamic properties of a new thromboxane receptor antagonist (Z-335) after single and multiple oral administrations to healthy volunteers.

The pharmacokinetics and pharmacodynamics of a new oral thromboxane (TX) A2 receptor antagonist, Z-335, were studied in healthy male volunteers following single doses (0.5-40 mg, PO) in a dose-escalating manner and multiple doses (40 mg, PO, once daily for 7 consecutive days) with a single-blind, placebo-controlled design. Serial blood and urine samples were analyzed for Z-335 and its metabolites to obtain key pharmacokinetic parameters. In the single-dose (10, 20, and 40 mg) study, the maximum plasma concentration (Cmax) and area under the plasma concentration versus time curve (AUC) increased in proportion to the dose when administered afterfasting, while the mean elimination half-life (t1/2beta) was essentially unchanged (7.79-7.93 h). Recovery of the unchanged and taurine-conjugated drugs in the urine within 24 hours was 6.5% to 8.4% and 11.9% to 14.2%, respectively. These parameters essentially remained unchanged when the effect of meal intake was evaluated at the dose of 20 mg with a crossover design. Ex vivo platelet aggregation in the plasma by a TXA2 analogue, U46619, was completely inhibited within 2 hours after all doses, and complete inhibition was maintained for 12 to 14 hours, depending on the dose. The aggregation induced by collagen was also inhibited to a lesser extent, whereas that by adenosine diphosphate was hardly influenced. In the multiple-dose study, Cmax and AUC0-24 were increased by 34% after the last dose compared with the first dose. Z-335 afforded extensive inhibition of platelet aggregation by U46619 throughout the administration period, which returned, however, almost to the control level 48 hours after the last dose. The agent was well tolerated without any abnormalities in subjective and objective symptoms, blood biochemistry, hematology, and urinalysis definitely attributable to the agent, except for the changes expected from its TXA2 receptor-antagonizing actions. Z-335 was concluded to be safe and to provide long-lasting blockade of TXA2 receptors on the basis of a once-daily regimen, promoting further clinical evaluation.