View clinical trials related to Chronic Heart Failure.
Filter by:To demonstrate that a virtual Heart Failure Clinic (HFC) based on patient self-management using Pulmonary Artery Pressure (PAP) monitoring is superior to usual care of HFC, leads to decreased: hospital admissions for heart failure (HF), emergency department consultation and/or unplanned intravenous heart failure therapy and cardiovascular death, compared to a regular HFC, has low device-related complications and is cost-effective, in New York Heart Association (NYHA) class III and II (requiring diuretics) patients.
This study will use a novel CPX test that incorporates instantaneous assessment of maximal isokinetic cycling power at V̇O2peak to elucidate the mechanisms that limit V̇O2peak in CHF, and compare these responses with age-matched controls.
This study characterizes heart failure patients who attended the University Hospital Würzburg. The primary aim is a better understanding of the relationships and differences between the subgroups HFrEF (EF < 40%), HFmrEF (EF 40-49%), and HFpEF (EF>50%), contributing to an improved diagnosis, prognosis and therapy of patients with heart failure.
Heart failure (HF) is currently considered a common pathology, with 15 million adults in Europe and 26 million worldwide. The American Heart Association (AHA) estimates that their number will increase by 25% by 2030. In France, HF affects more than one million people. Because of the repeated hospitalizations of this disease, it is considered a costly pathology and with a high mortality rate (23.000 deaths per year in France). Moreover, HF is a severe pathology that affects the quality of life of patients and their families. Treatment and medical follow-up are required. A cardiac rehabilitation program is also a primary indication according to the latest recommendations and repositories in Cardiology. Various studies show that "Interval Training" exercise program improves VO2 peak compared to a "continuous" program, which constitutes a major prognostic factor in the population of heart failure. However, it is sometimes a difficult program to offer to more deconditioned patients as it requires reaching powers around 80% - 95% of its maximum exertion capacity. So, a variant of the interval training is offered, called Progressive Interval Training (PIT), based on the same model as the conventional interval training (CIT), but with an increasing power and breathing threshold, so that the patient can adapt gradually. The hypothesis is that PIT could improve VO2 peak better than CIT in cardiac rehabilitation program. Therefore, study the benefits of PIT training to improve the conditioning and quality of life of patients with chronic heart failure will be studied.
Study is conducted to assess the prevalence and structure of comorbidity among patients undergoing abdominal surgery and produce the stratification of the risk of postoperative complications by identifying independent predictors for its development.
The main objective of the study is to determine if a diuretic adaptation protocol in the decompensation of chronic heart failure is more effective but also safer than the current non-protocolized practice.
It has been shown retrospectively that participation and even the willingness improves the survival of patients after myocardial infarction or heart failure. We aimed to prospectively analyse the role of participation in cardiology trials on the survival of patients in a high volumen tertiary center.
This study is a randomized controlled multicenter clinical trial, in which about 340 patients with newly diagnosed or prior diagnosed chronic heart will be recruited. Patients will be randomly divided into Angiotensin-Neprilysin Inhibition (ARNI) group and angiotensin-converting enzyme inhibitors or angiotensin receptor blockers (ACEI/ARB) group. All-cause death, cardiac death and re-hospitalization due to heart failure will be evaluated in 1, 3, 6, 12 months after recruitment.
Aims: To explore the clinical effect on exercise tolerance and quality of life, safety and tolerability of pacing at higher outputs in patients with chronic heart failure and a pacemaker. Background: Heart failure (HF) is a very common condition of breathlessness or fatigue associated with heart muscle weakness. In around 30% of people with HF, a pacemaker-based treatment known as cardiac resynchronization therapy (CRT) can improve symptoms and prognosis by retuning the timing of the contraction of the heart. However, the effect of CRT is variable and unpredictable, with around 1 in 3 of people obtaining no obvious symptomatic benefit. One of the reasons for this might be that the pacemaker pulse does not activate all of the heart muscle cells at the same time or at all. In order to provide the longest possible battery life span, the default programming for all pacemakers is to provide a stimulus at an arbitrary level above the capture threshold (at which the spike leads to contraction). Whilst this is reasonable in a normal heart where the aim is to treat a slow heart rate, in heart failure, where the aim is to retune all parts of the heart, it is possible that this is not enough to provide consistent contraction of all heart muscle cells. It is possible that providing a higher output electrical signal from the pacemaker will activate more of the heart muscle cells immediately and thereby improve the contraction of the heart. The investigators think that this might be important at rest, but even more important during activity. This concept has never been tested before in a systematic manner but could have large implications for people with heart failure and existing CRT devices which could simply be reprogrammed to derive greater benefits for patients during everyday activities. Design: The proposed project has two parts: Study 1 - 105 patients with a CRT pacemaker for heart failure but ongoing symptoms will be invited to attend the National Institute of Health Research Clinical Research Facility. Symptoms, medication, hospitalisation information will be collected and a heart ultrasound scan using the pacemaker to increase the heart rate will be done to describe the force frequency relationship. Patients will perform a cardiopulmonary exercise test. Of these patients, 40 will be invited to return for two further visits, to perform an exercise test each time with the pacemaker programmed to its usual output or high output pacing. At each visit, including the heart scans, the order of the programming will be random, and neither the observer nor the patient will know how the device has been programmed. Study 2 - 70 patients will be invited to participate in a longer term study of whether high output pacing is safe, well tolerated and has effects on walk time (on a treadmill) and heart pumping function. Participants will be randomly allocated to one of two groups: high output or standard pacemaker settings. In the high output group, the pacemaker will be programmed to deliver the highest output possible or tolerated. In the standard care group patients will have standard output settings.
The study aim is to monitor, during exercise tests carried out in various conditions, the alveolar dead space, by means of continuous transcutaneous measurement of Pt CO2, which would be used as a surrogate for arterial PaCO2. Validity of this measurement needs to be assessed against arterial sampling (either arterial, or arterialized capillary), especially with regards to the lag time required by the CO2 diffusion from the arterial compartment (PaCO2) to the cutaneous one (PtCO2), in particular when rapid changes of CO2 might be induced by exercise. The evaluation will be done in 2 different settings: - intensive care patients, equipped, for their routine clinical care, with an arterial line; this allows for a precise timed comparison between PaCO2 and PtCO2 readouts; - routine exercise test, where blood gas evaluation is done essentially by means of arterialized earlobe capillary sampling. Following assessment of validity of the measurement (and the lag time PaCO2-PtCO2 which might be necessary to introduce as a correction), evolution of dead space during excise test will be tested in different conditions: Healthy subjects, patients with Chronic Obstructive Pulmonary Disease (COPD), chronic heart failure (CHF), hyperventilation, Pulmonary artery hypertension (PAH), or interstitial lung disease (ILD)