search

Active clinical trials for "Heart Failure"

Results 4491-4500 of 4671

CCM Italian Registry

Heart Failure

The Cardiac Contractility Modulation (CCM) system is a cardiac implantable device indicated for the treatment of patients with symptomatic heart failure with left ventricular systolic dysfunction despite optimal medical and electrical therapy. This system consists of a generator to which two stimulation leads are connected, which are fixed on the interventricular septum and deliver non-excitatory electrical signals during the absolute ventricular refractory period, with the aim of influencing the contractility properties of the myocardium in patients with chronic heart failure. Clinical data indicate that CCM therapy is safe and effective for the treatment of patients with symptomatic heart failure with reduced left ventricular systolic function, in which a significant improvement in quality of life and exercise tolerance has been shown, together with an impact on hospitalizations for heart failure. This prospective registry includes patients undergoing CCM implantation for the above clinical indications. The inclusion criteria are age over 18; chronic heart failure with reduced left ventricular systolic function (FE ≤ 45%), symptomatic (class NYHA II or greater; class III or greater or II with episodes of acute decompensation for patients with FE 36-45%); presence of appropriate and optimized medical therapy (including beta-blockers and angiotensin-converting enzyme inhibitors or angiotensin-receptor blockers or angiotensin-receptor neprylysin inhibitors and anti-aldosterone agents); narrow QRS (<120 msec) or cardiac resynchronization therapy non-responders; written informed consent for enrollment and participation in the prospective register; life expectancy> 1 year due to the absence of non-cardiac comorbidities that reduce its prognosis; availability of venous access that can be used for the implant. The exclusion criteria are the absence of venous access available for the implant; contraindication to the interventional CCM implant procedure; life expectancy of less than one year due to non-cardiovascular comorbidities. The aim of this multicenter, prospective, observational registry is to investigate the impact of CCM on the medium and long-term on clinical and functional characteristics of the enrolled patients at the end of the follow-up, with respect to the baseline value: NYHA class, 6-minute walk test, ejection fraction and volumes of the left ventricle, quality of life expressed through a specific questionnaire (Minnesota Living With Heart Failure Questionnaire, MLWHF), hospitalizations for heart failure or progression of the underlying heart disease. In addition, the survival of patients undergoing CCM device implantation will be assessed in an observational manner at 24 months and then annually. In addition, adverse events related to the device implantation procedure or to CCM therapy are collected in the registry as a safety parameter. In the case of patients undergoing heart transplantation or LVAD implantation, or in the event of interruption of therapy or explantation of a device, the information will be recorded with the motivation for discontinuing treatment. Clinical follow-up includes follow-up assessments at 3 months, 6 months, 12 months and every 6 months thereafter. Each clinical follow-up visit includes objective examination, ECG, device function check, administration of an MLWHF quality of life questionnaire, a 6-minute walk test (or cardiopulmonary exercise test) and pharmacological therapy assessment and optimization. Furthermore, during the follow-up visits at 3 months, 12 months and every 12 months thereafter, a transthoracic echocardiogram and blood chemistry tests are scheduled. This multicenter observational prospective registry therefore aims to assess the long-term clinical impact of CCM in patients suffering from symptomatic heart failure with moderately or severely impaired systolic function. In particular, it will allow to evaluate the impact on functional capacity, symptoms and quality of life, hospitalizations, survival and device-related complications, with the aim of defining the role of CCM therapy in management of patient with heart failure with reduced left ventricular systolic function.

Unknown status9 enrollment criteria

Furosemide Stress Test for the Prediction of Acute Kidney Injury Severity in Acute Heart Failure...

Heart FailureAcute Kidney Injury

This study is aim to study the changes of serum creatinine levels at 72 hours after admission in patients with acute heart failure who has diuretic resistance compared to those who do not have diuretic resistance from furosemide stress test

Unknown status12 enrollment criteria

Prospective Monitoring of Angiotensin Receptor Neprilysin Inhibitor in Older Adults With Heart Failure...

Heart FailureSystolic1 more

The objective of this study is to establish a near-real-time prospective monitoring program in Medicare, Optum and MarketScan Research data to evaluate the benefit of new cardiovascular disease (CVD) drugs for older adults with frailty. Prospective monitoring program seeks to find early effectiveness and safety signals of new drugs by updating the analysis at regular intervals as new Medicare data become available. This study specifically aims to emulate a prospective surveillance of the effectiveness and safety of Angiotensin Receptor Neprilysin Inhibitor(ARNI) vs. a comparator, Angiotensin II Receptor Blockers (ARBs), in older adults with Heart Failure with Reduced Ejection Fraction (HFrEF) and different frailty status. This program will be enhanced by incorporating a novel claims-based frailty index, which has been shown useful in assessing how the benefits and harms of drug therapy vary by frailty.

Unknown status11 enrollment criteria

Adipose Tissue Inflammation in HFpEF

Heart Failure With Preserved Ejection FractionObesity

To evaluate the role of adipose tissue inflammation in patients with heart failure with preserved ejection fraction (HFpEF). Patients undergoing coronary artery bypass grafting with HFpEF and without heart failure will be included in this prospective study. Epicardial, paracardial, paraaortic/paravascular, subcutaneous adipose tissue samples as well as myocardial tissue will be harvested during cardiac surgery. Inflammatory patterns of these tissues and their relation to circulating markers will be investigated.

Unknown status12 enrollment criteria

Peritoneal Ultrafiltration to Treat Congestive Heart Failure

Chronic Kidney DiseaseCongestive Heart Failure

The purpose of this study is to determine whether the treatment of peritoneal ultrafiltration can improve survival and quality of life of refractory congestive heart failure with special accent on preserving residual renal function and peritoneal membrane characteristics/

Unknown status11 enrollment criteria

Changes in Intrathoracic Impedance During Sacubitril/Valsartan Treatment

Heart Failure With Reduced Ejection Fraction

The CHILISALT Study aimed to explore the effect of angiotensin-neprilysin inhibition on intrathoracic impedance and -derived fluid index in HFrEF patients who had a device for cardiac resynchronization therapy and/or an implantable cardioverter-defibrillator (ICD; Medtronic Inc., Minneapolis, MN) allowing continuous measurement of intrathoracic impedance.

Unknown status7 enrollment criteria

Diagnosis And Treatment of Sleep Apnea in Patient With Heart Failure

Sleep ApneaHeart Failure

DASAP-HF is an observational prospective single arm study. All patients will be treated according to the standard care followed by each center. The protocol requires enrollment of consecutive patients from each center, according to eligibility criteria. All patients must sign the Patient Informed Consent (PIC) before the enrollment in the study. All patients, after the enrollment phase, will be followed for 24 months. Approximately every 12 months a clinical follow-up procedure should be performed in each patient. A sleep study will be done in all patients at 1 month (or at 3 months) from the enrollment, in order to evaluate the performance of the algorithm as a diagnostic tool in this population (primary objective). During the 24 months follow-up period, all Adverse Events occurred in the study population will be collected (HF hospitalizations, all-cause deaths, ventricular arrhythmias, etc.). At the end of the 24 months follow-up, the incidence of clinical events will be evaluated as well as its association with the Respiratory Disturbance Index (RDI) values calculated by APNEA Scan algorithm (secondary objective).

Unknown status9 enrollment criteria

The Role of Nuclear Imaging in Heart Failure

Heart Failure

Heart failure is a clinical syndrome of exercise intolerance and/or congestion. The potential roles of myocardial perfusion and metabolic abnormalities in subjects with cardiovascular risks, metabolic disease and heart failure assessed by nuclear dynamic imaging warrant further investigations. The study investigators propose that microvascular dysfunction and abnormal metabolic substrate shift precedes and triggers the onset of diastolic dysfunctions. The aims are (1) to develop and validate the noninvasive measurement of absolute myocardial blood flow (MBF) and myocardial flow reserve (MFR) by using dynamic imaging with a CZT camera, (2) to assess myocardial glucose metabolism by using 18F-FDG dynamic PET, and MBF, MFR and LV systolic and diastolic function by dynamic SPECT comprehensively in subjects at cardiovascular risks and metabolic disease, HFrEF and HFpEF, (3) to correlate with peripheral serum markers and blood mononuclear cells subsets with myocardial perfusion and metabolic abnormalities, and (4) to test the hypothesis of these imaging and blood markers in diagnosis and prognostic implications. The study investigators also assess myocardial metabolic utilization in healthy and mice model of different metabolic disorders (obesity, diabetes mellitus and hypertension) by using 18F-FDG dynamic micro PET/CT, as an in-vivo measures which could be used to better understanding the disease mechanism and evaluating therapeutic strategies.

Unknown status4 enrollment criteria

RESponders and QUadripolar LV Lead in CRT

Heart Failure

The purpose of this study is to observe the evolution of the CRTD system with left quadripolar lead, in terms of electrical parameters in all pacing configurations and to evaluate the impact on the clinical outcome.

Unknown status6 enrollment criteria

Skeletal Muscles in Acute Heart Failure

Heart Decompensation

The study will include 30 consecutive patients with acute heart failure (AHF). In 20 patients the investigators will perform cardiologic rehabilitation. In the remaining 10 patients only standard pharmacotherapy will be administered. The cardiologic rehabilitation will follow the protocol used routinely in patients with AHF admitted to the Centre for Heart Disease,Military Hospital in Wroclaw. This protocol includes gradually increasing level of physical exercise (e.g.: respiratory exercises, assisted, active dynamic, and relaxation exercises, as well as short-term isometric exercises and general exercises of very low intensity, short duration and properly adjusted recovery phase). The following tests will be conducted on the first and last day of hospitalization and 30 days following the discharge: clinical evaluation (medical interview, routine physical examination, echocardiography, assessment of natriuretic peptides (NT-proBNP), basic laboratory tests with special emphasis on the inflammatory markers and renal and liver parameters); hemodynamic evaluation (i.e. non-invasive evaluation of cardiac output and systemic vascular resistance using of impedance cardiography); evaluation of biomarkers reflecting myocyte-damage (i.e. immunochemical measures of tissue-specific enzymatic isoforms, enabling to distinguish the markers of skeletal muscle damage vs. markers of myocardial injury - e.g. creatine kinase CK, its muscular isozyme CKMM, lactate dehydrogenase 5 LDH5, myoglobin, and carbonic anhydrase III, determined using test based on ELISA). On the first day of hospitalization, as well as on the first, third and last day of rehabilitation (the latter term corresponding to the last day of hospitalization as well) and also 30 days after the discharge, the following tests will be performed (both times: at rest and post-exercise): hemodynamic evaluation, the evaluation of skeletal muscle function (using surface electromyography (sEMG); maximum tonus of the muscles will be determined along with the level of muscular fatigability and its changes over time; the evaluation of muscle tissue perfusion (assessed on the basis of oxygenation level, with non-invasive, direct continuous recording of the perfusion in peripheral tissues by local tissue oximetry, measured by the near-infrared spectroscopy (NIRS). NIRS is based on the absorption of near-infrared waves by oxygenated and reduced haemoglobin. The levels of absorption reflect the degree of tissue oxygenation in a given area of microcirculation. Furthermore, a capillary gasometry (oxygen saturation and lactate concentration) will be determined). Moreover, two functional tests will be performed at the discharge and 30 days after the discharge: the 6-minute walk test and the 30-second "chair stand" test examining the strength endurance of the lower extremities (pertaining to repeated getting up from a chair over a period of 30 seconds).

Unknown status11 enrollment criteria
1...449450451...468

Need Help? Contact our team!


We'll reach out to this number within 24 hrs