The pharmacokinetics of ertapenem and ceftriaxone were investigated in an open, randomized, two-period crossover study after single-and multiple-dose administration in 10 healthy volunteers (five women and five men). Both antibiotics were administered intravenously once daily for 7 days at dosages of 1 g (ertapenem) and 2 g (ceftriaxone). The concentrations of the antibiotics in serum and urine were quantified by the agar well diffusion method bioassay and, in addition, for ertapenem only, by liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS). For ertapenem the maximum concentration of the drug in plasma (C max ) was 256 mg/liter, the half-life was 20.7 h, and the area under the plasma concentration-time curve (AUC) was 830 mg ⅐ h/ liter. The concentrations in fecal samples were (mean value) 37.2 and 32.7 mg/kg on day 4 and day 8, respectively. Ceftriaxone exhibited a mean C max of 315 mg/liter, a half-life of 7.6 h, and an AUC of 1,556 mg ⅐ h/liter. The mean concentrations in fecal samples were 153 and 258 mg/kg on day 4 and day 8, respectively. No accumulation of ertapenem or ceftriaxone was detected at steady state. A slightly but significantly decreased AUC for ertapenem was detected for the female volunteers. No serious adverse event was observed. Both antibiotics induced a marked decrease in the anaerobic microflora (4-log-unit decreases in lactobacilli, bifidobacteria, clostridia, and bacteroides) and Escherichia coli, whereas the number of enterococci increased (4 log units). A slight overgrowth of yeasts was observed with both regimens. In all cases the microflora returned to normal levels on days 21 to 35.Ertapenem, recently described as the first class 1 carbapenem (11), is a parenteral broad-spectrum beta-1-methyl-carbapenem with a long half-life in serum. It has been shown to be effective for the treatment of community-acquired pneumonia (9); intra-abdominal infections, skin and skin structure infections, and acute pelvic infections (14); and urinary tract infections (15). In contrast to imipenem and meropenem, ertapenem lacks sufficient activity against Pseudomonas aeruginosa, enterococci, and Acinetobacter spp.; but clinical trials have shown that Pseudomonas infections can be treated with ertapenem.Ertapenem can be administered once daily due to its long half-life in plasma. The long half-life in plasma reflects its high level of plasma protein binding.Ceftriaxone matches ertapenem in both its pharmacokinetics and its antibacterial spectrum for the treatment of community-acquired pneumonia and has been used as a comparator drug for ertapenem in clinical trials (9, 17). Ceftriaxone is a broad-spectrum parenteral cephalosporin with a long half-life that also requires administration only once daily.The application of antibacterial agents for the treatment of infections may have a number of potentially adverse effects on the normal oropharyngeal and intestinal microflora. The normal microflora acts as a barrier against colonization by potentially pathogenic microorganisms and agai...
The addition of atazanavir to saquinavir/ritonavir increased saquinavir Ctrough, Cmax and AUC0-24 by 112, 42 and 60%. Ritonavir Cmax and AUCo-24 increased by 34 and 41%. The regimen was well tolerated, with no significant change in laboratory parameters, except for the occurrence of hyperbilirubinemia.
Methadone is metabolized by various isoforms of the cytochrome P450 family, which can be induced by many drugs, including nevirapine. The objective of the present study was to determine the effects of coadministration of nevirapine and methadone on the dose-adjusted areas under the concentration-time curves (AUCs) of racemic and (R)-methadone. Twenty-five human immunodeficiency virus-infected subjects taking stable single daily doses of racemic methadone or (R)-methadone were included in this prospective, single-crossover trial. At the baseline, nevirapine was either started as part of a new regimen containing two nucleoside reverse transcriptase inhibitors (NRTIs) or added to an ongoing NRTI regimen. Patients could increase their methadone doses if withdrawal symptoms developed. Twelve-hour pharmacokinetic profiles were obtained before and 28 days after the start of nevirapine treatment. The total concentrations of methadone and its inactive metabolite, 2-ethylidene-1,5-dimethyl-3,3-diphenylpyrrolidine (EDDP), in serum were determined by liquid chromatography-tandem mass spectrometry. Among the 20 evaluable patients, coadministration of nevirapine significantly decreased the mean dose-adjusted AUC of methadone by 41%. AUC reductions were similar for patients taking racemic methadone (37%; n ؍ 11) and (R)-methadone (44%; n ؍ 9). AUC changes ranged from mild increases in three patients to decreases of up to 70%. Fourteen of 20 patients required additional methadone due to withdrawal symptoms. However, the median dose increase was only 15%, which was less than that which would have been expected from the pharmacokinetic data. The AUC of EDDP increased significantly, by 35%. Methadone dose adjustments are justified when methadone is coadministered with nevirapine. Due to extensive variability, the adjustments must be tailored to the individual patient's needs.Human immunodeficiency virus (HIV)-infected patients who take methadone for the management of intravenous drug use frequently complain about symptoms of narcotic withdrawal after having started antiretroviral treatment containing nevirapine (NVP) (1,2,18,28,29). Symptoms rarely appear within the first few days, which suggests that the effect is caused by the induction of methadone metabolism by NVP (3, 11). One controlled trial involving eight patients has shown that concomitant NVP treatment substantially decreases the trough level and the area under the concentration-time curve (AUC) of methadone (11).Methadone is a racemic mixture of the pharmacodynamically inactive (S)-methadone and the active enantiomer (R)-methadone. It contains equal parts of both enantiomers. In some countries, methadone is frequently used in a formulation which contains only the active enantiomer, (R)-methadone. Both enantiomers are metabolized by members of the cytochrome P450 family. N-demethylation results in the formation of the inactive metabolite, 2-ethylidene-1,5-dimethyl-3,3-diphenylpyrrolidine (EDDP) (4, 30).NVP, a nonnucleoside inhibitor of the HIV reverse transcriptase,...
Therapeutic drug monitoring (TDM) is gaining importance for improving the success of antiretroviral treatment in human immunodeficiency virus-infected patients. However, enfuvirtide (ENF) concentrations are not regularly determined. The objective of this work was to study the pharmacokinetics (PK) of ENF in patients treated in routine clinical settings, to develop a population PK model describing the concentration-time profile, and to establish PK reference values. A liquid chromatography-tandem mass spectrometry method was developed and applied to serum samples submitted for TDM. A two-compartment model with linear absorption and elimination was fitted to 329 concentrations from 131 patients. The PK model was used for simulations resulting in percentile curves for ENF levels for the full dosing interval. The model predicted that a median concentration of 1,968 ng/ml would be reached 12 h after administration of 90 mg of ENF, and 23% and 58% of patients are expected to have concentrations below 1,000 ng/ml and 2,200 ng/ml, respectively. Both values have been proposed as cutoffs for virological efficacy. The median maximum concentration of drug in serum (C max ) of 3,943 ng/ml, predicted for 3 h after drug administration, is lower than the C max reported previously. We found an enormous interpatient variability at every time point, with concentration spectrums covering >1 log and 52% and 123% interindividual variabilities in the typical clearance and volume of distribution, respectively, in contrast to preexisting PK data. In summary, ENF levels are lower and more variable than expected. Many patients may achieve insufficient concentrations. Further covariate analysis in the population PK model might help to identify factors influencing the variability in ENF concentrations.
The effect of tenofovir disoproxil fumarate (TDF) in combination with two boosted fosamprenavir regimens on amprenavir pharmacokinetic parameters was assessed in this prospective phase I crossover study with 30 healthy volunteers. The co-administration of TDF 300 mg once a day with fosamprenavir/ritonavir 1400/200 mg or 1400/100 mg once a day has no effect on the pharmacokinetics of amprenavir and results in non-significant increases of ritonavir pharmacokinetic parameters, suggesting that no dose modification is necessary when combining fosamprenavir/ritonavir with TDF.
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