View clinical trials related to Heart Failure, Systolic.
Filter by:Management of known patients with cardiovascular disease (in particular the whole spectrum of atherosclerotic ischaemic coronary artery disease, essential hypertension under treatment, and also patients with chronic heart failure under medication) and with other associated chronic pathologies, with obvious effects on the management of the pandemic with modern / distance means (e-Health) of patients at high risk of mortality in contact with coronavirus. Given the Covid-19 Pandemic, all the above complex cardiovascular patients are under the obligation to stay in the house isolated and can no longer come to standard clinical and paraclinical monitoring and control visits. Therefore, a remote management solution (tele-medicine) of these patients must be found. The Investigators endeavour is to create an electronic platform to communicate with these patients and offer solutions for their cardiovascular health issues (including psychological and religious problems due to isolation). The Investigators intend to create this platform for communicating with a patient and stratify their complaints in risk levels. A given specialist will sort and classify their needs on a scale, based on specific algorithms (derived from the clinical European Cardiovascular Guidelines), and generate specific protocols varying from 911 like emergencies to cardiological advices or psychological sessions. These could include medication changing of doses, dietary advices or exercise restrictions. Moreover, in those patients suspected of COVID infection, special assistance should be provided per protocol.
This is a pilot randomized trial of the BAMS-HF (Balance, Aerobic capacity, Mobility and Strength in patients hospitalized for Heart Failure) Program versus usual care. The BAMS-HF Program pilot study is an initial step in eventually creating a comprehensive, patient-centered, primarily home-based rehabilitation intervention aimed at preventing worsening disability and dependence among older adults hospitalized for HF. The BAMS-HF Program will enroll patients hospitalized for HF (or with HF as an active problem during hospitalization) within the past 4 weeks and will engage patients during the vulnerable post-discharged period. The objective of this pilot study is to test the feasibility, acceptability and preliminary effect of the BAMS-HF Program in older (>/= 65 years) adults hospitalized for HF. The BAMS-HF Program will begin within 4 week of hospital discharge and be administered 3 times weekly for 12 weeks in the patient's home upon discharge. Patients who are able to safely complete the program without in-person assistance will transition to telehealth (aka telerehabilitation) visits. The BAMS-HF Program is innovative because it is home-based, and will utilize rigorous, progressive exercises across multiple domains of physical function. The estimated preliminary effect size will be measured with the Short Physical Performance Battery (SPPB), a well-validated measure that predicts incident mobility/disability and falls in the geriatric population. Aim #1: To assess the feasibility of the BAMS-HF Program by measuring 1) study enrollment rate, 2) proportion of prescribed sessions that were actually performed, 3) proportion of patients completing full baseline assessment and outcome measures Aim #2: To assess the acceptability of the BAMS-HF Program with qualitative interviews of participants in the intervention arm that will ask about their experience in the program, any aspects of the intervention they recommend changing and whether patients would recommend the program to others. Reason for declining or stopping participation in the study will also be recorded and considered in adjusting the study protocol. Aim #3: To estimate the preliminary intervention effect by investigating the difference in change in SPPB between the BAMS-HF Program arm and the usual care arm.
This study will evaluate the utilization of an ultra-conservative programming strategy to reduce shocks for ventricular arrhythmias (VA) among patients with heart failure, an implantable cardioverter-defibrillator (ICD) and continuous flow (CF) left ventricular assist device (LVAD). Patients on LVAD support demonstrate unique hemodynamic tolerability of VA, and the role for ICDs among patients with newer generation CF LVADs remains less clear than the older generation devices. Prior studies have explored extended detection ICD programming to reduce unecessary or potentially avoidable shocks to patients. However, no prospective randomized study to-date has evaluated such programming strategies in the CF LVAD patient population. The study hypothesis is that ultra-conservative (UC) ICD programming will result in a reduction of shocks and an improvement in quality of life without increasing hospitalizations, syncope or death among patients on CF LVAD support, and the primary design is a 1:1 randomization between UC programming over standard, physician discretion programming.
Background: Severe systolic heart failure would be complicated with low cardiac output and high left ventricular filling pressure and the clinical presentations would be low blood pressure, poor peripheral perfusion, and pulmonary edema. Severe systolic heart failure with hemodynamically significant mitral regurgitation brings even more challenged since the obvious elevation of left atrial pressure induces more pulmonary congestion and backward flow of regurgitation in cases with already low cardiac output and poor peripheral perfusion complicates more severe of low cardiac output. Surgical interventions in those cases aren't strongly recommended due to very high operation risk. In the era of lack of nitroprusside in Taiwan (more than 7 years), hydralazine, a direct vasodilator, is a potential substitute for treatment of those cases. The advantages of hydralazine include 1) different dosage forms are available (10 mg, 25 mg, and 50 mg); 2) short half-life makes it reaching steady blood concentration in short period and allow to up- titrate rapidly and also recover fast while adverse reaction occurs; 3) it is much cheaper than other evidence-based medications. In this study, the investigators try to use rapid up-titration of hydralazine to maximal tolerable dose, almost up to 300-400 mg per day, combined with other evidence-based medications in cases with left ventricular ejection fraction less than 35% and mitral regurgitation severity more than moderate degree and assess the prognostic impact. Objective: Four hundred of patients with severe systolic dysfunction and hemodynamically significant mitral regurgitation, who were admitted for intensive care unit for acute decompensated heart failure, will be enrolled and the participants will be divided into two groups according 1 to 1 randomization process. Control group will receive conventional treatment with tolerable maximal dose of evidence-based medications and study group will use hydralazine with rapid up-titration, if no clinical adverse responses were noted, following by or simultaneously using evidence-based medications. The end-points include in- hospital mortality, 3-year all-cause mortality and heart failure rehospitalization. During follow-up period, any adverse response of high-dose hydralazine including lupus-like syndrome and arthritis will be monitored.
The investigators have demonstrated that they can reliably identify an optimum heart rate range for contractility of the left ventricle in patients with chronic heart failure (CHF). They have also demonstrated in an acute cross-over and a small parallel group feasibility study that keeping the heart rate in this range (versus standard rate-response programming) in patients with CHF is associated with increased exercise time on a treadmill (around 60s or 10%). They now want to explore in a randomised, placebo-controlled 3-arm parallel group trial whether optimal programming versus standard rate-response programming versus no rate-response programming for 6 months leads to appreciable improvements in exercise time and quality of life, while having no adverse effects on left ventricular function and battery longevity and what the mechanisms of this might be. 400 patients with CHF and a pacemaker will undergo the non-invasive echocardiographic assessment to establish the force frequency relationship and the optimal heart rate for contractility. They will then perform a treadmill walk test, complete quality of life questionnaires and be offered the opportunity to participate in a series of mechanistic substudies. They will then be randomised to optimal rate-response settings, standard rate response settings or no rate-response settings and followed up at 6 months at which point the tests will be repeated.
This is a Phase 1, prospective, multi-center, open-label, sequential dose escalation study to explore the safety, feasibility, and efficacy of a single intracoronary infusion of BNP116.sc-CMV.I1c in patients with NYHA Class III heart failure. Patients with symptomatic congestive heart failure will be enrolled until up to 12 subjects have received infusions of investigational product. All patients will be followed until 12 months post treatment intervention, and then undergo long-term follow-up via semi-structured telephone questionnaires every 6 months for an additional 24 months (+/- 30 days).
The Aortix CRS Pilot Study: An Evaluation of the Safety and Performance of the Aortix System for Intra-Aortic Mechanical Circulatory Support in Patients with Cardiorenal Syndrome
To characterize the physiological signals collected from a Wearable Cardiac Monitor (WCM) prototype device in subjects with heart failure and preserved ejection fraction (HFpEF) and compare against signals from subjects with heart failure and reduced ejection fraction (HFrEF). To evaluate the relationship of physiological signals measured from a wearable cardiac monitor (WCM) prototype device with ECHO measures of systolic and diastolic function
There will be two populations in this study: control group, and intervention group. These groups will undergo propensity matching to account for confounders and minimize selection bias. 120 patients will be enrolled, 60 to each population. The objective of this study is: assess the utility of lower extremity compression wraps as adjuvant therapy in inpatient management of acute systolic heart failure The control group will consist of patients admitted to I5 Cardiology for management of acute systolic heart failure with intravenous diuresis and standard medical therapy, meeting inclusion criteria. Information will be gathered through observational prospective data analysis from Epic EMR, and will include daily diuretic type and dose required, daily urine output, daily creatinine, total days of admission, daily and pre-discharge weight, admission BNP, and pre-discharge BNP. The intervention group will consist of patients admitted to I5 Cardiology meeting inclusion criteria and being managed with standard medical therapy. This group will receive additional therapy using bilateral lower extremity compression wraps applied by nursing staff per pre-set protocol, and will receive education on the use of compression wraps. Patients will be instructed to wear the compression wraps for the entirety of the time they are undergoing intravenous diuresis, with pauses in care as needed for hygiene and symptom relief purposes. During the time of compression wrap application, the following data will be collected: urine output, daily weights, daily creatinine, daily and total dose and type of intravenous diuretic used. Prior to discharge, a BNP will be obtained. Endpoints (including percentage of weight reduction, total urine output achieved with diuresis, total dose requirement and type of intravenous diuresis, total days of intravenous diuresis, days to discharge, discharge BNP, and percent reduction from admission BNP) will then be compared to assess the utility of adding lower extremity compression wraps to inpatient management of acute systolic heart failure.
Cardiac resynchronization therapy (CRT), or atrial-synchronized biventricular (BiV) pacing, is an FDA-approved device therapy option for heart failure (HF) patients with reduced left ventricular ejection fraction and electrical dyssynchrony. A traditional CRT device has pacing leads implanted within the right atrium (RA), the right ventricle (RV), and within a coronary vein overlying the lateral or posterior left ventricle (LV). Within the past decade, various multi-center randomized controlled trials have reported improved quality of life, aerobic exercise capacity, LV systolic function and structure, as well as decreased hospitalization rates and mortality among patients with HF. Despite improvements in CRT technology with multipoint pacing, quadripolar leads, and adaptive pacing algorithms, approximately 30% of patients do not clinically benefit and are considered non-responders. This study looks to optimize new CRT device recipients using information obtained from standard ECG machines.