[Pharmacokinetics of antibiotics in Continuous Renal Replacement Therapies (CRRT)]

In the critically ill patient, acute kidney injury (AKI) is frequently associated with infective complications requiring appropriate antimicrobial treatment. AKI and multiple organ dysfunction syndrome can affect the pharmacokinetic parameters of many drugs. Furthermore, the start of renal replacement therapy (RRT) is an additional variable to be taken into consideration to avoid inappropriate antimicrobial therapy. Continuous renal replacement therapies (CRRT) are widely adopted in the intensive care unit (ICU) and antibiotics that are significantly eliminated by the kidney are likely to be removed during RRT. Generally, drug-dosing adjustments are required if the extracorporeal clearance accounts for more than 25-30% of the total body clearance. The molecular weight cutoffs of the more widely used membranes are much higher than the molecular weight of most drugs. Therefore, molecular size will not be a limitation for the removal of the unbound fraction of the antibiotics most commonly used in ICU patients. However, CRRTs are still not standardized and the impact of RRT on plasma drug concentrations can be substantially different depending on the CRRT modality (diffusive, convective or both), membrane characteristics and delivered dialysis dose. In any case, drug-dosing adjustments should be based on the knowledge of the pharmacokinetic and pharmacodynamic properties of the different classes of antimicrobials, taking into account that high extracorporeal clearances could lead to drug underexposure in clinical conditions where appropriate antibiotic treatment is essential.