View clinical trials related to Decompensated Heart Failure.
Filter by:During cardiorenal syndrome type 1 (CRS1) vascular congestion is the major contributor to worsening renal function, but promoting decongestion with routine clinical evaluation is ineffective in some patients. The venous evaluation by ultrasound (VExUS) may optimize its management when evaluating for improvement in kidney function and other metrics related to decongestion.
Metabolic alkalosis (MA) is the most common acid-base disorder and when it's severe it can have effects on cellular function and contribute to an increase in mortality. MA is a common complication of heart failure (HF) especially when patients are treated with diuretics, but few studies have analyzed the prevalence of acid-base disorders in patients with HF. All these studies have shown that MA is more common in patients with HF in more advanced stages and that the use of diuretics increases the prevalence of MA. The study hypothesis, based on clinical experience and the few data that exist in the scientific literature, is that MA is a frequent analytical disorder in patients admitted for decompensated HF and that its presence entails a worse short-term vital prognosis. The ALCALOTIC study is an observational cohort and prospective study. The main objectives of the study are the following: 1. To determine the prevalence of MA in patients admitted for decompensated HF 2. To analyze if there are differences in patients admitted for HF according to the presence of MA on admission 3. To determine if the presence of MA has an influence on the short-term prognosis in patients admitted for decompensated HF
An aerobic physical exercise protocol will be applied to patients admitted in ward due to decompensated heart failure, in order to validate the efficacy and safety of physical exercise in this phase of clinical stabilization, through the said training protocol - ERIC program.
In individuals needing a left ventricular assist device (LVAD), right heart failure (RHF) is a serious complication post-surgery, associated with worsened outcomes including mortality. However, predictors of decompensation after LVAD are not well established. Liver dysfunction pre-LVAD has been shown to be associated with poor outcomes post-LVAD, but the interplay between liver abnormalities and RHF post-LVAD is not well characterized. Liver stiffness (LS) is a measure associated with certain types of liver abnormalities (e.g., liver fibrosis; cirrhosis). Thus, we hypothesize that elevated LS measured by SWE is associated with increased morbidity and mortality in patients undergoing LVAD implantation and yields increased need for advanced postoperative HF therapies including the use of right ventricular assist devices (RVAD) for the management of RHF.
Researchers are observing the values of proEnkephalin (PENK) via a blood draw in hospitalized patients that are volume overloaded requiring diuresis. If changes in PENK are found, physicians may predict values of change in kidney function during treatment.
An aerobic physical exercise protocol will be applied to patients admitted in ward due to decompensated heart failure, in order to validate the efficacy and safety of physical exercise in this phase of clinical stabilization, through the said training protocol - ERIC program.
A randomized, double-blinded, placebo-controlled study of continuous 6-hour IV infusions of CXL-1427 in hospitalized patients with systolic heart failure.
In this pilot, investigator-initiated multi-centre, multinational, observational study the investigators would like to examine the impact of therapy optimization on the level of biomarkers in patients with acute decompensated and decompensated chronic heart failure. The primary objective is to determine the best time point for measuring biomarker levels during therapy optimization in patients with decompensation to predict clinical outcomes such as mortality, hospitalisation, and quality of life. Secondary objectives are: 1. To evaluate the impact of guideline-recommended medication on biomarker levels during and following recompensation. 2. To evaluate whether the trajectory of relevant biomarkers (MR-proANP, MR-proADM) is of relevance to guide medical therapy following decompensation. 3. To evaluate whether the degree of biomarker change (e.g. slow versus rapid change) is of relevance with regard to hemodynamic stability and cardiovascular events such as hospitalisation. 4. To evaluate whether the trajectory of relevant biomarkers (copeptin, CT-pro-ET1) is of relevance to guide medical therapy following decompensation.