Edgar Hoffmann scite author profile

The pharmacokinetics of meropenem were studied in nine anuric critically ill patients treated by continuous venovenous hemodiafiltration. Peak levels after infusion of 1,000 mg over 30 min amounted to 103.2 ± 45.9 μg/ml, and trough levels at 12 h were 9.6 ± 3.8 μg/ml. A dosage of 1,000 mg of meropenem twice a day provides plasma drug levels covering intermediately susceptible microorganisms. Further reductions of the dosage might be appropriate for highly susceptible bacteria or when renal replacement therapies with lower clearances are applied.

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Correlation of Meropenem Plasma Levels with Pharmacodynamic Requirements in Critically Ill Patients Receiving Continuous Veno-Venous Hemofiltration

Krueger

Neeser²,

Schuster³

et al. 2003

Chemotherapy

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Background: In patients with acute renal failure, the pharmacokinetics of meropenem depend on the operational characteristics of the renal replacement therapy. Dosage recommendations are based on the correlation of plasma levels with pharmacodynamic requirements. Methods: Eight critically ill patients with acute renal failure were treated by continuous veno-venous hemofiltration with a filtrate flow of 1,600 ml/h and received 500 mg of meropenem every 12 h. Plasma and hemofiltrate concentrations of meropenem at steady state were determined by HPLC. Results: Peak levels in plasma amounted to 39.5 ± 10.5 mg/l (mean ± SD) and trough levels were 2.4 ± 1.5 mg/l. The minimal inhibitory concentration (MIC) for susceptible bacteria (4 mg/l) was covered for 40% of the dosing interval or longer in all patients. The MIC for intermediately susceptible organisms (8 mg/l) was covered for 33% in 6 of the 8 patients. The elimination half-life was prolonged to 3.63 ± 0.77 h. The sieving coefficient of meropenem was 0.91 ± 0.10 and the recovery in hemofiltrate amounted to 30.9 ± 11.5% of the dose. Conclusions: A dosage of 500 mg twice daily provides appropriate serum levels for the treatment of infections caused by susceptible bacteria. A higher dosage is adequate for infections by intermediately susceptible bacteria or for renal replacement therapies with markedly higher filtrate flow rates.

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Tyramine kinetics and pressor sensitivity during monoamine oxidase inhibition by selegiline

Schulz

Antonin

Hoffmann

et al. 1989

Clin Pharmacol Ther

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The effect of the monoamine oxidase inhibitor selegiline on tyramine metabolism and intravenous and oral tyramine pressor sensitivity was studied in healthy subjects. After oral doses of tyramine, which caused systolic blood pressure to increase by 30 mm Hg, we determined plasma concentrations of p-hydroxyphenylacetic acid (HPAA) and of conjugated and unconjugated tyramine. When 20 mg/day of selegiline was administered, the AUCspec of HPAA decreased from 86% to 64% and the AUCspec of conjugated tyramine increased from 13% to 35% of the sum of total tyramine and HPAA. Pressor sensitivity was enhanced more with oral administration of tyramine than with intravenous administration of tyramine. After the drug was discontinued, initial values were reached within 4 days (one subject) and 2 weeks (two subjects). Fifty-five percent of the selegiline dose was eliminated in urine as amphetamine and methamphetamine. The findings support the assumption that selegiline does not selectively inhibit monoamine oxidase-B (MAO-B) when administered in doses of 20 mg/day and higher.

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Elimination of Meropenem by Continuous Hemo(Dia) Filtration: An in Vitro One-Compartment Model

et al. 1999

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Meropenem is a carbapenem antibiotic with a wide spectrum of activity against most gram positive and gram negative bacteria including anaerobes. Dose adjustments are necessary during continuous renal replacement therapies of acute renal failure. This in vitro study was conducted to investigate the influence of different filter materials, surface areas (AN-69 0.6 m2 and 0.9 m2, polysulfone 0.75 m2, polyamide 0.6 m2), and increasing flow rates (from 3.3 - 26.7 ml/min) on the elimination of meropenem in an in vitro continuous hemo(dia)filtration model. Meropenem was measured using HPLC with UV-detection. While the clearance increased proportionally to increasing dialysate flow rates in filters with a surface area of 0.9 m2, a peak clearance was reached in the small filters at flow rates of 10.0 ml/min (polyamide 0.6 m2) and 18.3 ml/min (AN-69 0.6 m2), when tested under the same conditions. This indicated incomplete dialysate saturation due to the diminished time available for meropenem to equilibrate with the dialysate solution. No adsorption to either of the tested membranes was detected. Dosage recommendations derived from clinical studies might be appropriate when different filter materials, but similar operational settings of the continuous replacement therapy, are applied. Reduction of the recommended dose might be necessary, when renal replacement therapies with lower flow rates and/or filters with smaller surface areas are carried out.

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Elimination of Linezolid by an in vitro Extracorporeal Circuit Model

Hansen

Stephan

et al. 2004

Int J Artif Organs

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Linezolid is an oxazolidinone antibiotic with activity against important grampositive aerobic bacteria, including nosocomial pathogens. It is not known whether dosage adjustments are necessary in patients treated with continuous renal replacement therapies. This in vitro study was conducted to investigate the elimination of linezolid in an in vitro continuous hemo(dia)filtration model using different filter materials (polysulfone, polyacrylonitrile, polyamide), surface areas, and different modes of renal replacement therapies. Linezolid was measured using HPLC with UV-detection. No adsorption of linezolid to any of the tested membranes was detected. Recovery of linezolid in the ultrafiltrate was 98.2 ± 10.5% in the filtration mode. During dialysis, recovery was significantly less (87.6 ± 16.1%; p = 0.02). Linezolid elimination was not altered by filter size, when polysulfone filters with surface areas of 0.7 m2 and 1.3 m2 were tested. In conclusion, the dosage recommendations for linezolid are independent of the filter materials. However, the elimination is significantly higher during hemofiltration compared to dialysis.

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Edgar Hoffmann

Pharmacokinetics of Meropenem in Critically Ill Patients with Acute Renal Failure Treated by Continuous Hemodiafiltration

Correlation of Meropenem Plasma Levels with Pharmacodynamic Requirements in Critically Ill Patients Receiving Continuous Veno-Venous Hemofiltration

Tyramine kinetics and pressor sensitivity during monoamine oxidase inhibition by selegiline

Elimination of Meropenem by Continuous Hemo(Dia) Filtration: An in Vitro One-Compartment Model

Elimination of Linezolid by an in vitro Extracorporeal Circuit Model

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