PURPOSE: We hypothesized that the 2 ventilation modes might have a different influence on the stroke volume variation (SVV). This study investigated the effect of the ventilation modes on SVV as a predictor of fluid responsiveness during major abdominal surgery. MATERIALS AND METHODS:Sixty patients were randomly allocated to volume-controlled ventilation (VCV, n = 30) or pressure-controlled ventilation (PCV, n = 30) modes. After the induction of anesthesia, hemodynamic variables and SVV were measured before and after volume expansion (VE) with colloid solution of 10 mL/kg. The ability of SVV to predict the fluid responsiveness was tested by calculation of the area under a receiver operating characteristic curve for an increase in stroke volume index of at least 15% after VE. RESULTS: There were 10 and 16 responders in the VCV and PCV groups, respectively. The area under a receiver operating characteristic curve (95% confidence interval) for SVV before VE was 0.723 (0.538-0.907) and 0.799 (0.625-0.973) in the VCV and PCV groups, respectively. The optimal threshold value of SVV was 11% and 14% in the VCV and PCV groups, respectively. CONCLUSIONS: Stroke volume variation can predict fluid responsiveness during both VCV and PCV modes. However, the optimal threshold values of SVV may differ according to the ventilation modes.
RCT Entities:
PURPOSE: We hypothesized that the 2 ventilation modes might have a different influence on the stroke volume variation (SVV). This study investigated the effect of the ventilation modes on SVV as a predictor of fluid responsiveness during major abdominal surgery. MATERIALS AND METHODS: Sixty patients were randomly allocated to volume-controlled ventilation (VCV, n = 30) or pressure-controlled ventilation (PCV, n = 30) modes. After the induction of anesthesia, hemodynamic variables and SVV were measured before and after volume expansion (VE) with colloid solution of 10 mL/kg. The ability of SVV to predict the fluid responsiveness was tested by calculation of the area under a receiver operating characteristic curve for an increase in stroke volume index of at least 15% after VE. RESULTS: There were 10 and 16 responders in the VCV and PCV groups, respectively. The area under a receiver operating characteristic curve (95% confidence interval) for SVV before VE was 0.723 (0.538-0.907) and 0.799 (0.625-0.973) in the VCV and PCV groups, respectively. The optimal threshold value of SVV was 11% and 14% in the VCV and PCV groups, respectively. CONCLUSIONS:Stroke volume variation can predict fluid responsiveness during both VCV and PCV modes. However, the optimal threshold values of SVV may differ according to the ventilation modes.
Authors: Martijn van Lavieren; Jeroen Veelenturf; Charlotte Hofhuizen; Marion van der Kolk; Johannes van der Hoeven; Peter Pickkers; Joris Lemson; Benno Lansdorp Journal: BMC Anesthesiol Date: 2014-10-14 Impact factor: 2.217