Aminoglycoside antibiotics distribute into the extracellular fluid compartment and are eliminated by the kidney via glomerular filtration. Malnutrition and total parenteral nutrition influence the fluid and electrolyte status of the patient, and cause organ changes. The purpose of this clinical study was to characterize the kinetic behaviour of gentamicin in the parenterally fed critically ill adult patient. Eighty-six critically ill adult patients treated with gentamicin for severe Gram-negative infections were enrolled in the study (mean +/- SD): age, 60 +/- 14 years; weight, 69.4 +/- 10.2 kg; height, 163 +/- 10 cm; 22 females and 64 males. Four study groups were defined (2 x 2): total parenteral nutrition vs. fluid therapy, and acute renal failure vs. normal renal function. The drug was administered by intermittent intravenous infusion. Blood samples were drawn at steady-state, 5 min before the next dose ('trough') and 30 min after the termination of the infusion ('peak'). Gentamicin serum concentration was determined by fluorescence polarization immunoassay. Gentamicin pharmacokinetic parameters were estimated by non-linear regression analysis, assuming a one-compartment model and first-order elimination from the central compartment. Treatment of malnutrition with total parenteral nutrition increased gentamicin volume of distribution (P < 0.001), but did not affect total body clearance (P = 0.75). This change tended to produce lower peak concentrations (< 4 micrograms/ml, P = 0.07), thus potentially compromising therapeutic effectiveness. There was no significant influence on trough concentrations (P = 0.56). Patients receiving fluid therapy had a volume of distribution of 0.34 +/- 0.08 litre/kg, while those fed by the intravenous route showed larger values (0.43 +/- 0.12 litre/kg), irrespective of their renal function. This may be explained by the extracellular water expansion caused by stress, malnutrition, and parenteral refeeding. Gentamicin dosage regimens in critically ill adult patients on total parenteral nutrition should be formulated on the basis of larger volumes of distribution and to attain therapeutic serum concentrations higher doses may be required.
A high variability is observed in the use of rasburicase in our patients. The hematology and pharmacy services have been working jointly to prepare a consensus-based protocol according to which, depending on the patient s risk of developing TLS (tumoral lysis syndrome), standard prophylaxis is administered to low-risk patients (intravenous hydration, alopurinol and urine alcalinization) and rasburicase is administered initially for 1-3 days to patients with high risk of developing TLS.
We report an alternative dose-finding approach for the selection of optimal prophylactic aminoglycoside dosage in specific (sub)populations of patients. Relative a priori utility of several intervals of gentamicin or tobramycin (AMG) peak and trough serum levels were assigned by a group of pharmacokinetics experts, assuming prophylactic administration for laryngectomy interventions. A group of 27 adult patients, with normal renal function, undergoing elective surgery for laryngeal problems and treated prophylactically with gentamicin (80 mg t.i.d.) or tobramycin (100 mg t.i.d.) was studied. Two blood samples (peak and trough) were drawn at steady-state for AMG assay. Three different methods, standard two-stage (STS), extended least-squares non-linear regression [MULTI(ELS)] and non-parametric expected maximization (NEPM), were used to estimate the pharmacokinetic (PK) population parameters. PK simulations were applied to estimate the AMG steady-state concentrations from the PK population parameters. From these data, relative utility values were calculated, allowing the selection of the optimal dosage schedule for this group of patients. There were no statistically significant differences between the PK population estimates as generated by the three methods. Using the STS estimates, the simulation of several dosages indicated that the optimal dosage is 170 mg every 8 h. Conversely, using the individual PK parameters and the mean AMG levels simulated from them, the dose with best relative utility is 130 mg every 8 h. This important difference points out the relevance of the use of relative utilities for the AMG serum concentrations in the selection of optimal a priori dosage. We propose the use of 120 mg every 8 h as the safer dose for our population. Further studies are needed to validate this proposal in patients similar to ours.
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