Pharmacological Principles of Antibiotic Prescription in the Critically Ill

Abstract: The goal of antimicrobial prescription is to achieve effective drug concentrations. Standard antimicrobial dosing regimens are based on research performed often decades ago and for the most part with patients who were not critically ill. More recent insights into antibiotic activity (e.g. the importance of high peak/MIC ratios for aminoglycosides and time above MIC for β-lactam antibiotics), drug pharmacokinetics (e.g. increased volume of distribution and altered clearances) and the pathogenesis of sepsis (e.g… Show more

“…This implies choosing optimal empirical antibiotics, appropriate mode of administration, and correct dosage. Administration of antimicrobials to severely ill patients at dosages defined in studies conducted in healthy volunteers often achieves only suboptimal serum concentrations, which are associated with treatment failure and resistance development [17,18]. …”

“…Moreover, many pathophysiological changes associated with severe acute illness or sepsis, like capillary leak, third spacing, increased volume of distribution, and impaired renal and/or liver function, affect antimicrobial pharmacokinetics/pharmacodynamics [17]. Therefore, it is imperative to identify intensivists with a profound knowledge of infectious diseases in critically ill patients in order to improve prescription quality.…”

Combatting resistance in intensive care: the multimodal approach of the Spanish ICU “Zero Resistance” program

“…This implies choosing optimal empirical antibiotics, appropriate mode of administration, and correct dosage. Administration of antimicrobials to severely ill patients at dosages defined in studies conducted in healthy volunteers often achieves only suboptimal serum concentrations, which are associated with treatment failure and resistance development [17,18]. …”

“…Moreover, many pathophysiological changes associated with severe acute illness or sepsis, like capillary leak, third spacing, increased volume of distribution, and impaired renal and/or liver function, affect antimicrobial pharmacokinetics/pharmacodynamics [17]. Therefore, it is imperative to identify intensivists with a profound knowledge of infectious diseases in critically ill patients in order to improve prescription quality.…”

Combatting resistance in intensive care: the multimodal approach of the Spanish ICU “Zero Resistance” program

“…Cefoxitin is a semisynthetic cephamycin usually classified as a second-generation cephalosporin with a broad spectrum of antibacterial activity against both anaerobic as well as Grampositive and Gram-negative aerobic bacteria [4]. Cefoxitin activity is time dependent and requires tissue and free serum concentrations above the minimum inhibitory concentration (MIC) of the pathogen to obtain adequate bacterial killing [5]. Therefore, the goal of antimicrobial prophylaxis is to obtain free serum and tissue drug levels that exceed, at least for the duration of the operation, the MIC of the organisms likely to be encountered during the surgical procedure [6].…”

Population pharmacokinetics of prophylactic cefoxitin in patients undergoing colorectal surgery

“…Optimal antibiotic dosing is crucial to maximize the chance of survival of critically ill septic patients [1]. A clear relationship has been demonstrated between pharmokinetic variables (e.g.…”

The effect of adsorption, filter material and point of dilution on antibiotic elimination by haemofiltration