Due to the risk of central nervous system infection, relatively high weight-based echinocandin dosages may be required for successful treatment of invasive candidiasis and candidemia in young infants. This open-label study assessed safety and pharmacokinetics of micafungin in 13 young infants (> 48 hours of age and < 120 days of life) with suspected candidemia or invasive candidiasis. Infants weighing ≥ 1,000 g and < 1,000 g received 7 and 10 mg/kg/day, respectively, for a minimum of 4 to 5 days. Mean baseline weight and gestational age were 2101 g and 688 g, and 30 weeks and 25 weeks, in the 7 and 10 mg/kg/day groups, respectively. Median pharmacokinetic values for the 7 and 10 mg/kg/day groups, respectively, were: AUC 0-24 , 258.1 and 291.2 μg•h/ml; Cl ss/wt, 0.45 and 0.57 ml/min/kg; C max, 23.3 and 24.9 μg/ml; and Vd ss/wt, 341.4 and 542.8 ml/kg. No deaths or discontinuations from treatment occurred. These data suggest that micafungin dosages of 7 and 10 mg/kg/day were well tolerated and provided exposure that was demonstrated in animal model to be adequate for central nervous system coverage.
Background-Determining the safety and pharmacokinetics of antifungal agents in neonates is important. A previous single-dose pharmacokinetic study of micafungin in neonates demonstrated that doses of 0.75 to 3 mg/kg produced lower plasma micafungin concentrations than in older patients because of increased apparent plasma clearance of micafungin in neonates. The primary objective of this study was to assess the safety and pharmacokinetics of an increased (15 mg/kg/day) dose of micafungin.
A new method based on gastrointestinal transit kinetics has been developed for estimation of the absorption profiles of drugs administered orally as aqueous solutions. The utility of the method was evaluated in rats. The gastrointestinal transit profile for each segment was estimated by in-vivo studies using phenol red, an unabsorbable marker. The gastrointestinal transit profile of phenol red was well explained by a linear gastrointestinal transit kinetic model with eight segments. We also introduced the absorption process into the gastrointestinal transit kinetic model and the plasma profile was predicted by the convolution method. The absorbability of drugs in each segment was assessed by an in-situ absorption study. The validity of the model was evaluated for model drugs with different absorption characteristics. The plasma profiles predicted for ampicillin, theophylline and cephalexin were in good agreement with those observed. The overestimated plasma profile of propranolol suggests that the low bioavailability of propranolol is a result of first-pass metabolism by the intestine wall and the liver, because the calculated absolute absorption is almost perfect. This proposed model is also suitable for estimation of segmental absorption, which is useful for the development of drug delivery systems. We have demonstrated that the plasma profile of orally administered drugs can be predicted by use of gastrointestinal transit and segmental absorbability information and that this method is especially useful for estimating separately the effect of absolute absorption and first-pass metabolism on the bioavailability of drugs.
The pharmacokinetics, safety and tolerability of a once-daily formulation of tacrolimus (tacrolimus extended-release formulation; XL formerly referred to as MR or MR4) were assessed in 18 stable pediatric liver transplant recipients who were converted from the twice-a-day formulation of tacrolimus (TAC) to XL. Patients received their twice-a-day dose of TAC on study days 1 through 7. Beginning on the morning of study day 8, patients were converted to XL on a 1:1 (mg:mg) basis for their total daily dose, and were maintained on a once-daily AM dosing regimen using the same therapeutic monitoring and patient care techniques employed with TAC. Based on pharmacokinetic profiles obtained on study days 7 (TAC) and 14 (XL), steady state exposure (AUC 0-24 ) was equivalent between XL and TAC; the mean XL/TAC ratio for lnAUC 0-24 was 100.9% (90% CI: 90.8%, 112.1%). AUC 0-24 and C min were strongly correlated at steady state (correlation coefficient: XL 0.90, TAC 0.94). During the first year post-conversion, there were no cases of acute rejection, discontinuation of XL, graft loss or death. The safety profile of XL was consistent with that known for TAC. These results support the safe and convenient conversion of pediatric liver transplant recipients from twice-a-day TAC to once-daily XL.
Two randomized, double-blind, placebo-controlled studies are reported that had the objective to evaluate the pharmacokinetics, pharmacodynamics, and safety of ASP015K (peficitinib), a Janus kinase (JAK) inhibitor, in healthy subjects. The single-dose study included 7 male groups (3-300 mg) and 2 female groups (30 or 200 mg), n = 8/group (6 on ASP015K and 2 on placebo in each group). The multiple-dose study included 1 female and 3 male groups, n = 12/group (9 on ASP015K and 3 on placebo in each group), who received ASP015K (30 mg) or placebo every 12 hours (twice a day) for 14 days. In the single-dose study, plasma ASP015K concentration increased dose-proportionally. Food increased ASP015K exposure (AUC ) by 27%. Mean peak JAK inhibition increased with dose, from 6% at 4 hours (median) following ASP015K 3 mg to 93% (range, 89%-98%) at 2 hours (median) after ASP015K 300 mg. In the multiple-dose study, ASP015K plasma exposure reached steady state by day 3. On day 14, mean ASP015K peak concentration was 38%-65% higher than after the first dose; peak JAK inhibition following 100 or 200 mg twice daily was >85%. The most common adverse events (AEs) were neutropenia, headache, and abdominal pain; no serious AEs occurred. The safety findings at pharmacologically effective doses of ASP015K support further clinical development.
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