Introduction: Improved methods to optimize drug dosing in the critically ill are urgently needed. Traditional prescribing culture involves recognition of factors that mandate dose reduction (such as renal impairment), although optimizing drug exposure, through more frequent or augmented dosing, represents an evolving strategy. Elevated creatinine clearance (CLCR) has been associated with sub-therapeutic antibacterial concentrations in the critically ill, a concept termed augmented renal clearance (ARC). We aimed to determine the prevalence of ARC in a cohort of septic and traumatized critically ill patients, while also examining demographic, physiological and illness severity characteristics that may help identify this phenomenon.
Methods: This prospective observational study was performed in a 30-bed tertiary level, university affiliated, adult intensive care unit. Consecutive traumatized and septic critically ill patients, receiving antibacterial therapy, with a plasma creatinine concentration [less than or equal to] 110 umol/L, were eligible for enrolment. Pulse contour analysis (Vigileo / Flo Trac(R) system, Edwards Lifesciences, Irvine, CA, USA), was used to provide continuous cardiac index (CI) assessment over a single 6-hr dosing interval. Urinary CLCR measures were obtained concurrently.
Results: Seventy-one patients contributed data (sepsis n=43, multi-trauma n=28). Overall, 57.7% of the cohort manifested ARC, although there was a greater prevalence in trauma (85.7 vs 39.5%, p<0.001). In all patients, a weak correlation was noted between CI and CLCR (r = 0.346, p=0.003). This was mostly driven by septic patients (r=0.508, p=0.001), as no correlation (r=-0.012, p=0.951) was identified in trauma. Those manifesting ARC were younger (p<0.001), male (p=0.012), with lower acute physiology and chronic health evaluation (APACHE) II (p=0.008) and modified sequential organ failure assessment (SOFA) scores (p=0.013), and higher cardiac indices (p=0.013). In multivariate analysis, age [less than or equal to] 50 years, trauma, and a modified SOFA score [less than or equal to] 4, were identified as significant risk factors. These had greater utility in predicting ARC, compared with CI assessment alone.
Conclusions: Diagnosis, illness severity, and age, are likely to significantly influence renal drug elimination in the critically ill, and must be regularly considered in future study design and daily prescribing practice.
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