Limiting cefotaxime pediatric dosing to adult standards: a pharmacokinetic simulation study.

OBJECTIVE: The recommended cefotaxime dose of 50 mg/kg every six to eight hours for pediatric patients with a body weight greater than 20 kg exceeds the standard 1-gram dose recommended for adult patients. This study estimated whether limiting the cefotaxime dose recommended for children with mild to moderate infections to a standard 1-gram dose would achieve serum concentrations and time above the MIC90 comparable to those in adults. METHODS: Serum concentration profiles were simulated from mean cefotaxime pharmacokinetic parameters that have been published for children and for adults using widely available spreadsheet software. The simulations employed an open, one-compartment, multiple-dose model and were calculated using a common commercial spreadsheet. The model was used to predict serum concentrations using dosage regimens of 1 g or 50 mg/kg administered every six or eight hours in pediatric patients of various weights with pediatric pharmacokinetic parameters and 1 g every six or eight hours for adult patients with adult pharmacokinetic parameters. The time that cefotaxime concentrations exceeded the MIC90 for pediatric pathogens was also calculated. RESULTS: The 50 mg/kg pediatric dosing regimens administered every 8 hours (q8h) or every 6 hours (q6h) consistently produced peak serum concentrations and area under the concentration versus time curve (AUC) values higher than those in adults. Serum concentrations and AUCs generated for the 1-gram regimens for various pediatric weight categories were also above those predicted in adults. The time above the MIC90 for pediatric patients was equivalent to or exceeded those of the adult simulations for all pathogens. CONCLUSIONS: The results support the concept of limiting cefotaxime dosage regimens to 1 g administered every 6 or 8 hours for mild to moderate infections in children weighing more than 20 kg. This dosage regimen could lead to dose standardization procedures, which could produce reductions in drug costs associated with individualized dosage preparation.

The pharmacokinetics of bumetanide in the newborn infant.

This study characterizes the pharmacokinetics of bumetanide after an intravenous dose of 0.05 or 0.10 mg/kg to 14 neonates (weight range 820-4,000 g; gestational age 26-40 weeks) during the first week of life. Blood samples and urine were collected for up to 12 h after dosing. Estimated serum clearance was 0.2-1.0 ml/min.kg (range), volume of distribution was 0.22 l/kg (range 0.11-0.32 l/kg), and the harmonic mean half-life was 6-7 h (range of 4-19 h). Nonrenal clearance accounted for 58-97% of the serum clearance with the presence of certain oxidative metabolites of bumetanide in the urine. These findings suggest higher dosing requirements and prolonged intervals as compared to adults. Utilizing these pharmacokinetic data, pharmacodynamic and ototoxicity studies should be conducted to establish a safe and effective neonatal dose.

Effectiveness of a gentamicin dosing protocol based on postconceptional age: comparison to published neonatal guidelines.

OBJECTIVE: To evaluate the effectiveness of a gentamicin dosing protocol based on postconceptional age in producing therapeutic serum concentrations and to compare the protocol with commonly used gentamicin dosing guidelines. DESIGN: During the initial three months of this study infants were dosed according to physician discretion (group I). In the subsequent three-month period patients were dosed according to a postconceptional age dosing schedule (group II). SETTING: Infants were enrolled after being admitted to the Newborn Intensive Care Unit at the University of Miami/Jackson Memorial Medical Center. PATIENTS: Infants less than 37 weeks gestational age with normal renal function, not receiving indomethacin, and requiring gentamicin treatment were enrolled. Fifty-nine infants were enrolled into group I (median weight 1300 g [range 720-3300]), postconceptional age 29 weeks [26-37]); and 68 infants were enrolled into group II (weight 970 g [530-3000], postconceptional age 29 weeks [24-36]). INTERVENTION: Patients in group II were dosed according to the following protocol: postconceptional age less than 30 weeks, 3.0 mg/kg q24h, and postconceptional age 30-37 weeks, 2.5 mg/kg q18h. Peak and trough serum gentamicin concentrations were obtained in all study patients. Pharmacokinetic parameters were calculated from measured serum concentrations. Using the calculated pharmacokinetic data, peak and trough serum concentrations were simulated for five published neonatal dosing guidelines and the proposed postconceptional age protocol. MAIN OUTCOME MEASURES: The number of therapeutic serum gentamicin concentrations resulting from the dosing guidelines studied were compared. RESULTS: Measured trough concentrations differed significantly between the two groups with 35 percent of patients in group I and 90 percent of patients in group II having trough values less than 2 mg/L (p less than 0.001). There was no significant difference in measured peak concentrations between groups. Simulated trough concentrations were significantly different when postconceptional age dosing was compared with commonly used protocols (p less than 0.0001) with the highest percentage of concentrations less than 2 mg/L (89 percent) resulting from the proposed postconceptional age guidelines. CONCLUSIONS: These data suggest that the proposed postconceptional age protocol is reproducible and reliable in achieving therapeutic gentamicin serum concentrations in neonates.