View clinical trials related to Fluid Responsiveness.
Filter by:To assess fluid responsiveness in prone patient
Stroke volume variation (SVV) is an indicator used to assess the patient's volume status. The FloTrac system (Edwards Lifesciences, Irvine, CA) continuously monitors cardiac output (CO) and SVV (SVV-FloTrac) by analyzing the systemic arterial pressure wave. Numerous studies have demonstrated that SVV-FloTrac serves as a reliable indicator of fluid responsiveness. However, its peripheral invasiveness raises concerns about susceptibility to reflecting waves, damping, and vascular tone influences.In contrast, Transthoracic electrical bioimpedance (BioZ.comâ„¢) offers a non-invasive approach for continuously monitoring various hemodynamic variables. In this study, the primary aim was to assess the agreement between simultaneously measured SVV-FloTrac and SVV-BioZ.
Stroke volume variation (SVV) is an indicator used to assess the patient's volume status. The FloTrac system (Edwards Lifesciences, Irvine, CA) continuously monitors cardiac output (CO) and SVV (SVV-FloTrac) by analyzing the systemic arterial pressure wave. Numerous studies have demonstrated that SVV-FloTrac serves as a reliable indicator of fluid responsiveness. However, its peripheral invasiveness raises concerns about susceptibility to reflecting waves, damping, and vascular tone influences.In contrast, Transthoracic electrical bioimpedance (BioZ.comâ„¢) offers a non-invasive approach for continuously monitoring various hemodynamic variables. In this study, the primary aim was to assess the agreement between simultaneously measured SVV-FloTrac and SVV-BioZ.
The purpose of this study is to validate Rainbow pleth variability index for prediction of fluid responsiveness in children.
The purpose of this study is to find out if non-invasive dynamic parameters can predict fluid responsiveness in spontaneous breathing patients.
The aim of the study to examine Optic Nerve Sheath Diameter measurement for prediction of fluid responsiveness in hemodynamically unstable patients
Surgical patients, especially those with insufficient blood volume and hypotension, often need fluid therapy. However, there is still a lack of simple and reliable indicators for judging transfusion responsiveness in some types of surgery. Previous studies have shown that Pressure Gradient for Venous Return (PVR) can be used to guide infusion. Thus, our aim is to explore the relationship between PVR and liquid reactivity.
Fluid challenge is often carried out in critical ill patients. Its responsiveness usually requires invasive monitoring. To use non-invasive methods is very tempting. We hypothesize that transcutaneous pO2,transcutaneous pCO2 and Central Venous pO2 variations provide feasible estimation on fluid responsiveness in critical ill patients.