View clinical trials related to Pulse Pressure Variation.
Filter by:The investigators studied the predictive value of PPV in the patients with different influencing factors;and the method to improve the predictive value,which can improve the application of PPV in ICU.
Although individualized or goal-directed approach has been advocated, a reliable index is still required to help monitor the volume status timely and efficiently. Dynamic indexes, such as pulse pressure variation (PPV) and stroke volume variation (SVV), have been shown to be clearly superior to more commonly measured static preload variables, such as pulmonary artery occlusion pressure (PAOP) and central venous pressure (CVP). The reliability of dynamic indexes in monitoring the volume status and predicting fluid responsiveness have been validated. Fluid optimization guided by SVV and PPV is beneficial to hemodynamic stability and can decrease mortality and reduce postoperative complications. However, the usefulness of dynamic indexes in elderly patients has not been previously investigated. This study aimed to evaluate whether dynamic indexes PPV and SVV can reliably predict fluid responsiveness in elderly patients, and to determine their thresholds in elderly patients.
Background: Intraoperative fluid therapy guided by mechanical ventilation-induced pulse-pressure variation (PPV) may improve outcomes after major surgery. It was tested this hypothesis in a multi-center study. Methods: The patients were included in two periods: a first control period (control group; n=147) in which intraoperative fluids were given according to clinical judgment. After a training period, intraoperative fluid management was titrated to maintain PPV< 10% in 109 surgical patients (PPV group). It was performed 1:1 propensity score matching to ensure the groups were comparable with regard to age, weight, duration of surgery, and type of operation. The primary endpoint was postoperative hospital length of stay.
The investigators hypothesized that pulse pressure variation (PPV) could predict fluid responsiveness in spontaneously breathing patients undergoing anesthesia induction.