View clinical trials related to Fluid Management.
Filter by:Studies have demonstrated that the rate of change in stroke volume variation (SVV) can be used to determine the volume of body fluids during major abdominal surgery. Anaesthesiologists can use SVV as a guide for the appropriate administration of intraoperative fluids to improve postoperative prognoses. Liver surgery is a major abdominal operation, and the amount of blood lost is typically higher than that during other general abdominal surgeries. Blood loss is positively correlated with the intraoperative fluid infusion volume, and greater blood loss is associated with more postoperative complications. Additionally, comorbid liver disease or cirrhosis can increase the complexity of liver tumour resection, causing difficulty in assessing intravascular volume and determining the appropriate intraoperative infusion volume.
In this study investigators explore the effects of a dynamic elastance guided protocol compared to a stroke volume variation fluid therapy on lactate levels during major abdominal surgery. Hence investigators created two groups: in the intervention group fluids are given in fluid-responders (SVV > 13%) based on high value of dynamic elastance (ie. Eadyn > 0.9). In the standard group fluids are administered when SVV > 13%.
The aim of this study will be to compare the fluid management in acute respiratory distress syndrome ARDS guided by electrical cardiometry (EC) versus the guidance with simplified conservative fluid protocol, Fluid and Catheter Treatment Trial "FACTT Lite". Group (A) consists of 35 patients: Fluid management in this group will follow a simplified conservative fluid protocol, "FACTT Lite" The FACTT Lite provided three possible instructions determined by the CVP and urine output: furosemide administration, fluid bolus, or no intervention. Group (B) consists of 35 patients: Fluid will be allowed according to an FTc-based fluids algorithm protocol and the type of bolus fluids will be determined according to Transthoracic fluid content (TFC), vasopressors and inotropes will be given according to reading of EC reading of systemic vascular resistance (SVR) and index of contractility (I CON).
This study evaluated the practice before and after the introduction of a particular model pulsoxymeter giving, in addition, information on the state of fluid responsiveness of the patient.
The purpose of this study is to investigate whether a validated sensor that is able to measure how much oxygen-carrying molecules called hemoglobin using pulse hemoglobin and Pleth Variability Index (PVI)] are in your blood during surgery can help your doctors manage how much fluid and possibly blood you need to get during your surgery. The hope of the study is that the device may provide an early indication you are having bleeding and this may mean you need to be treated with a transfusion. Our current method of checking this is by getting a blood sample for analysis. The investigators hope is that this device may be able to alert the clinician of the need for blood or fluids without a blood draw being needed.
Pleth Variability Index (PVI) seems to be an ideal parameter to guide fluid management: dynamic parameter and non-invasive. PVI could guide fluid management during surgery and optimization of the plethysmographic-derived parameter could improve hemodynamics of the patients.