View clinical trials related to Fluid Overload.
Filter by:Fluid expansion in critically ill patients following high risk surgery may induce fluid overload and worse outcome. Several tools have been developped to predict fluid responsiveness in such situation in order to avoid inappropriate fluid administration but with several limitations. Inferior vena cava (IVC) distensibility is one of those tools which has the advantage to be non-invasive, dynamic and safe, is usually measured by subcostal (SC)approach. In post surgical setting this acess is limited du to practical reasons (scar, dressing...), therefore a transhepatic (TH) approach is used but has not been validated as a fluid responsiveness prediction tool. The correlation between SC approach with the TH approach vary according to studies. Therefore the performances, the threshold identified for SC approach can not be translated to the TH approach. Further, fluid congestion status measured before IVC analyses, may be a useful confounder and safety endpoint for fluid responsiveness interpretation. The primary objective of this study is therefore to study the performance of the IVC measured using TH approach (IVCth) in predicting of fluid responsiveness defined as an increased of 10% and over of stroke volume. Secondary objectives intend to analyse the correlation between TH and SC approaches, to compared their performances for fluid responsiveness prediction, and to analyse the weight of venous congestion on fluid responsiveness prediction.
The post market surveillance study will employ a prospective, multi-center, single-arm, observational design to capture data on children who undergo CRRT using the Carpediemâ„¢ system. Participating clinicians will manage subjects in accordance to their local standard of care practices and decisions on initiating, modifying or discontinuing CRRT are up to the local investigative team's prescription. A minimum of 10 centers in the United States, that have been trained on the use of the Carpediemâ„¢ system, will be invited to participate in the study. After obtaining institutional review board approval and written informed consent from a parent or legally authorized representative (LAR), data from all subjects treated with the Carpediemâ„¢ system will be included in the study. A minimum of 35 subjects will be enrolled and sites may be asked to screen and enroll patients for the study for up to 36 months. Status of subjects discharged from hospital will be collected at 30- and-90 days following hospital discharge by phone interviews in accordance to local standard of care practices, review of in-hospital records or in-clinic visit, as available.
The purpose of this study is to determine if testing preload responsiveness, the normal physiologic state that means that changes in preload determine changes in cardiac output, allows an earlier and physiologically safer weaning from mechanical ventilation in critically ill patients with fluid overload, when compared to a strategy of fluid removal aimed at obtaining a predetermined negative fluid balance.
Pregnancy is associated with a myriad of physiologic changes, including expansion of blood volume, decrease in oncotic pressure, and increased cardiac output. The obstetric population is associated with intrapartum hemorrhage. Accordingly, it is important to have an accurate method to assess fluid status in intrapartum patients. The use of standard volume assessment tools including arterial lines and central venous catheters is limited given the brevity of obstetric procedures and the morbidity of these techniques on the awake patients, and the costs. Non-invasive methods to assess volume status (carotid dopplers, direct measurement of blood loss, bio-impedance devices) are imperfect. Echocardiography is an attractive tool to measure fluid status in experienced operators such as anesthesiologists. IVC diameter and variation of aortic velocity time integral are two measures that can be obtained via echocardiography and been studied in spontaneously breathing patients. The purpose of this study is to determine whether these measurements can be used in the assessment of volume status in the laboring patient.
A randomized clinical trial to evaluate the effect of using pulmonary ultrasound to guide fluid therapy on distinct variables.
This study evaluates the benefits and harms of goal directed fluid removal with furosemide versus placebo in critical ill adult patients with fluid overload in the intensive care unit. Half of the patients will receive furosemide and the other half placebo. The treatment will continue until the excess fluid is excreted.
Background: Severe acute kidney injury (AKI) among critically ill patients is sometimes treated with renal replacement therapy (RRT), and in Sweden continuous RRT (CRRT) is the dominant modality used in this population. - The optimal timing of renal replacement therapy (RRT) initiation in critically ill patients with acute kidney injury (AKI) is unknown - No consensus to guide clinical practice on this issue - Lack of consistency regarding outcome measurements; should we look at morbidity or mortality? - Wide variability in the timing of RRT initiation in the intensive care unit (ICU) population Hypothesis: This is an important knowledge gap in the support of critically ill patients with AKI and we hypothesize that early initiation of RRT is beneficial. Methods: The present study aims to test this hypothesis by using a large scale high resolution intensive care database, the Clinisoft repository. In this database, we have information on >60 000 patients from three different hospitals and five ICUs, during the years 2005 up until today. The repository will be crossmatched, using the unique Swedish national ID number, with hospital records; to gather information on preexisting illnesses, chronic medication and post-ICU outcomes. It is likely that over 5%, more than 3000 patients, have been treated with RRT. We will categorize these patients into "early" and "late" groups using both biomarker data and clinical data. Importantly, early and late RRT can be categorized using biomarkers, like urea and creatinine; using degree of fluid accumulation, by level of pH in blood and just by using hours-days after ICU admission. All possible definitions of early/late RRT initiation can be tested in this study. Outcomes: Our primary outcome is 90 day mortality. Secondary outcomes include: mortality at 30, 60, 180 and 365 days. Two- and three year mortality. Morbidity, measured as end-stage renal disease (ESRD) for 90-day survivors. ICU length of stay, hospital length of stay.
The objective of this pilot study is to evaluate the feasibility and safety of the use of diaphoresis achieved through the use of portable sauna baths in peritoneal dialysis patients with fluid overload
This clinical observational cohort study assess the loss of albumin from blood circulation during and after liver transplantation by mass balance of albumin. The overall assumption of this method is that if albumin is more diluted than hemoglobin, it must have left the plasma, presumably into the interstitial space. Predictors of albumin leakage will be assessed, including biomarkers of inflammation and of endothelial damage and dysfunction. The sub cohorts children and patients with complications, defined as prolonged postoperative treatment in the intensive care unit, respectively, will be focused in separate publications.
By bioelectrical impedance spectroscopy (BIS) association of fluid status in patients with valvular heart disease and cardiovascular outcome will be assessed.