Abstract
ObjectiveOptimizing cardiac stroke volume during high-risk surgical anesthesia is of particular interest with regard to a therapeutic target to reduce the incidence of postoperative complications. However, intensive fluid management in critically ill small animals with pulmonary hypertension (PH) has been empirically performed, and thus it can be challenging. Stroke volume variation (SVV) has been used as a dynamic preload predictor of fluid responsiveness. We hypothesized that if SVV exhibited robust reliability in the setting of hemodynamically unstable condition, it would provide more precise information on fluid resuscitation to translate it into veterinary anesthesia. Thus the aim of this study was to investigate the utility of SVV measured by the electrical velocimetry (EV) method for predicting fluid responsiveness in dogs with PH.MethodsSixteen dogs undergoing emergency abdominal surgery and diagnosed with PH secondary to myxomatous mitral valve disease (MMVD) on preoperative transthoracic echocardiogram were included. Dogs were randomly assigned to 2 groups with and without inotropic cardiac support with dobutamine. Hemodynamic measurements including stroke volume and SVV derived from the EV device were performed under general anesthesia before (baseline) and after surgery (fluid challenge with a colloid solution defined by a SV increase of ≥ 10%).ResultsIn both groups, SVV elevated significantly after abdominal surgery compared with baseline. In dobutamine infused group, the SVV values decreased significantly after fluid challenge (P < 0.05) with a greater number of responders than saline infused control group (P < 0.01). Receiver operating curve analysis of SVV confirmed high positive predictive value for dogs during dobutamine infusion (P < 0.05; cut-off value of 15%; specificity 90%, sensitivity 82%).ConclusionsNoninvasive EV monitoring may be useful for the prediction of fluid responsiveness in critically ill dogs with left-sided heart failure-related PH. This normalization of dynamic preload indices, which could be achieved more precisely under inotropic support, may prevent further detrimental consequence of fluid loading.
Highlights
Optimizing cardiac stroke volume during surgical anesthesia is of particular interest with regard to a therapeutic target to reduce the incidence of postoperative complications
Hemodynamic measurements including stroke volume and Stroke volume variation (SVV) derived from the electrical velocimetry (EV) device were performed under general anesthesia before and after surgery
SVV elevated significantly after abdominal surgery compared with baseline
Summary
Optimizing cardiac stroke volume during surgical anesthesia is of particular interest with regard to a therapeutic target to reduce the incidence of postoperative complications. Pulmonary hypertension (PH) is related to the risk for development and severity of clinically significant congestive heart failure [1]. There is growing appreciation that left-sided heart failure is known to cause PH in elderly patients and is associated with increased left-sided filling pressure that may lead to pulmonary venous hypertension and post-capillary PH [2]. Many cases of PH in animals are related to left side heart disease. The principles of fluid therapy and how they influence critical decisions on intensive care management have been underestimated in the field of veterinary anesthesia despite increased population of elderly companion animals with congestive heart failure [4]
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