Abstract

BackgroundOwing to complexities of measuring dead space, ventilatory failure is difficult to quantify in critical care. A simple, novel index called ventilatory ratio (VR) can quantify ventilatory efficiency at the bedside. The study objectives were to evaluate physiological properties of VR and examine its clinical applicability in acute respiratory distress syndrome (ARDS) patients. MethodsA validated computational model of cardiopulmonary physiology [Nottingham Physiology Simulator (NPS)] was used to evaluate VR ex vivo in three virtual patients with varying degrees of gas exchange defects. Arterial Pco2 and mixed expired Pco2 were obtained from the simulator while either dead space or CO2 production was altered in isolation. VR and deadspace fraction was calculated using these values. A retrospective analysis of a previously presented prospective ARDS database was then used to evaluate the clinical utility of VR. Basic characteristics of VR and its association with mortality were examined. ResultsThe NPS showed that VR behaved in an intuitive manner as would be predicted by its physiological properties. When CO2 production was constant, there was strong positive correlation between dead space and VR (modified Pearson's r 0.98, P<0.01). The ARDS database had a mean VR of 1.47 (standard deviation 0.58). Non-survivors had a significantly higher VR compared with survivors [1.70 vs 1.34, mean difference 0.35, 95% confidence interval (CI) 0.16–0.56, P<0.01]. VR was an independent predictor of mortality (odds ratio 3.05, CI 1.35–6.91, P<0.01). ConclusionsVR is influenced by dead space and CO2 production. In ARDS, high VR was associated with increased mortality.

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