View clinical trials related to Cardiac Failure.
Filter by:An International, multicenter, epidemiological observational study investigating the prevalence of Transthyretin-Related Familial Amyloidotic Polyneuropathy (TTR-FAP) in participants with small fiber polyneuropathy of no obvious etiology.
It is established that at a serum concentration 0.5-0.9 ng/ml digoxin is effective in patients with heart failure, especially in the presence of atrial fibrillation (AF). It is the claimed that ivabradine by lowering heart rate reduces symptoms and improves clinical outcomes in patients with heart failure. The effect of ivabradine and digoxin in heart failure was compared. Patients 22 patients with ischemic heart failure, AF, and diastolic dysfunction with preserved left ventricular systolic function were treated with digoxin and ivabradine for 3 months, according to a randomization cross-over design. Collected data Medical history, physical examination, laboratory (including proBNP and serum digoxin concentrations), ECG, 6-minute walk test, and echocardiographic data (LVEF, LAVi, e/e1 ratio).
It is routine practice for a cardiologist to perform a battery of tests to assess the degree of heart failure. The purpose of this study is to establish a non-invasive method to reliably predict cardiac output state in real-time in children and adolescents with heart failure in an outpatient setting. This study will rely on the use of near infrared spectroscopy monitors to measure cardiac output in the outpatient setting.
The purpose of this study is to evaluate echocardiographic markers of cardiac function to assess the ability of patients to successfully end VA-ECMO support.
Cardiac rehabilitation is the ideal comprehensive intervention for patients with chronic heart failure (CHF), since it addresses the complex interplay of medical, psychological and behavioural factors facing these individuals. Structured exercise training within a cardiac rehabilitation programme is firmly recommended for these patients. However, it is questionable whether patients are achieving an adequate dose of exercise to provide optimal benefits. The essential components for setting optimal training include the appropriate mode, duration, frequency and intensity of exercise. UK surveys of cardiac rehabilitation describe the frequency and duration of training, but here is scant information on exercise intensity. However, it is apparent that randomised controlled trials of exercise training use doses more than 4 times greater than in UK current practice. The Eastbourne Exercise Cardiology Research Group has demonstrated that although patients benefit from improved quality of life and submaximal fitness after a hospital outpatient cardiac rehabilitation programme, they do not achieve the increases in important prognostic indicators reported by the majority of exercise training trials. The critical factor in terms of eliciting a sufficient training effect while minimising risk is the intensity of the exercise performed. It is now widely accepted that the traditional methods of using fixed percentages of maximal heart rate or oxygen uptake to set exercise intensity include serious errors. The European Society of Cardiology recommends that cardiopulmonary exercise testing should be used to provide an objective evaluation of the metabolic demand of exercise. This allows physiologically meaningful reference points to be established for aerobic exercise prescription and is the solution to defining safe and effective training intensities. The next step is to determine whether this information can be transferred to a practical cardiac rehabilitation environment to set and monitor exercise intensity
The purpose of the research is to determine if patients have fewer Heart Failure (HF) events after receiving Aquapheresis (AQ) therapy compared to intravenous (IV) diuretics up to 90 days of discharge from the hospital. Heart Failure events are defined as returning to the hospital, clinic or emergency department (ED) for treatment of HF symptoms.
Previous studies have demonstrated a direct association between blood pressure level and cardiovascular risk. However in patients with heart failure this association is considered controversial. The aim of this study is to evaluate the effect of the reduction of blood pressure in patients with heart failure. The investigators will examine the effects of this intervention over mortality, quality of life, and cardiac function.
Liver stiffness measurement (LSM) by non invasive methods is increasingly used to estimate liver fibrosis in patients with chronic liver diseases. However, there is growing evidence that fibrosis is not the only determinant of liver stiffness. Indeed inflammation, cholestasis, congestion could also interfere with stiffness measurements. Acoustic radiation force impulse imaging (ARFI) is a new technology to perform real time LSM. Using a standard ultrasonographic probe, it offers elastography with a flexible metering box at variable depth, allowing the examination of specific area.
This trial will investigate the clinical and haemodynamic effects of temporary biventricular pacing after cardiac surgery. Subjects with poor left ventricular systolic function will receive either temporary biventricular pacing or 'standard' post-operative pacing for 48 hours. The investigators hypothesis that reversal of cardiac dyssynchrony will improve tissue perfusion and cardiac haemodynamics after surgical revascularisation. This will shorten post-operative recovery in cardiac ITU.
Neurally adjusted ventilatory assist (NAVA) is a new concept of mechanical ventilation. NAVA delivers assist to spontaneous breathing based on the detection of the electrical activity of the diaphragm. We study the effect of NAVA on cardiac performance in critically ill, mechanically ventilated patients.