View clinical trials related to Heart Failure.
Filter by:The study team will examine the effects of SGLT2i (and SGLT2i-induced increases in plasma ketone concentrations) on skeletal muscle and cardiac ketone uptake, skeletal muscle bioenergetics, cardiopulmonary exercise capacity, and patient-reported functional outcomes.
The purpose of this capstone project is to pilot Heart Smart, a virtual group program to improve self-efficacy for self-management skills for homebound people with heart failure.
To describe the causes mentioned by general practitioners, explaining the under-treatment of the three main treatments for heart failure with impaired ejection fraction (ARS blockers of the type ACEinhibitor/ARA2/ARNi, ß- and/or anti-aldosterone).
This study evaluates a sensor-controlled digital game (SCDG) to motivate self-management behaviors of weight monitoring and physical activity in adults with heart failure (HF). Half of the participants will receive the SCDG app and weight monitoring and physical activity sensors and the other half will receive only the weight monitoring and physical activity sensors.
In patients with heart failure and preserved ejection fraction (HFpEF) right ventricular (RV) systolic and diastolic dysfunction are prognostically and functionally relevant factors but have mechanistically been neglected so far. In the present study alterations of intrinsic RV (systolic and diastolic) function, as assessed by invasive pressure volume loops, are examined in relation to tissue alterations on myocardial level and to the degree of RV afterload (pulmonary hypertension). Study aim is to gain insights into mechanisms contributing to the development of RV dysfunction and potentially identify new therapeutic targets.
Tabula Rasa HealthCare (TRHC), d/b/a CareKinesis, is the first national pharmacy that provides science-based medication risk identification and mitigation technologies and services. CareKinesis utilizes medication decision support tools and pharmacists certified in geriatrics to provide pharmacy services for various healthcare organizations including PACE organizations (described above). Presently, CareKinesis services more than 35 PACE organizations, including approximately 140 PACE sites, across the country. As a national PACE pharmacy provider since 2011, CareKinesis focuses on improving medication regimens to reduce medication-related risks while enhancing economic, clinical and humanistic outcomes. Pharmacist-led clinical services and medication safety reviews are currently being offered to PACE organizations under the direction of licensed healthcare prescribers by TRHC (CareKinesis). Through mutual data-sharing agreements, patient data will be collected retrospectively for patients satisfying the inclusion and exclusion criteria. TRHC via other programs such as the Center for Medicare & Medicaid Enhanced Medication Therapy Management program with BlueCross BlueShield Northern Plain Alliance and ClearStone, or via collaboration as third party with other health plans can have access to de-identified patient's data. TRHC has also established an agreement with the Watson IBM database to retrieve relevant patients' information for research.
Cardiac resynchronization therapy (CRT) is an established pacemaker therapy for patients with symptomatic chronic heart failure, but is hampered by a non-response rate of 30-40%. Optimising left ventricular (LV) lead placement is the cornerstone of improving treatment. The optimal location for the lead is remote from scar but within segments demonstrating late electromechanical activation. The present study aims to investigate the efficacy and clinical effect of the use of real-time guided lead placement using cardiac MRI and fluoroscopy in a blinded, multicenter, randomized controlled trial.
HFpEF has gradually become the most common form of heart failure. Studies have found that metabolic abnormalities and chronic inflammation ultimately lead to HFpEF by promoting heart remodeling. However, there are few relevant studies and the mechanism is still unclear.
BACKGROUND Right ventricular dysfunction is a common echocardiographic finding after cardiac surgery. Pericardial disruption has been suggested as the most probable cause as the phenomenon occurs within minutes after pericardial incision. The investigators suspect that validated two-dimensional echocardiographic measures for right ventricular function might not reflect the altered RV contraction pattern including paradoxical interventricular septal motion and reduced long-axis function following open cardiac surgery. The present study aims to determine the prevalence and scale of right ventricular dysfunction two years after CABG by applying the latest available two- and three-dimensional echocardiographic technology in right ventricular evaluation. In addition, the investigators investigate the impact of right ventricular dysfunction on functional outcome. METHODS The Right-Heart-Study is an observational substudy of the SWEDEGRAFT trial at Aarhus University Hospital in Denmark. SWEDEGRAFT is a nordic, multicenter, prospective, randomized, register-based, clinical trial (ClinicalTrials.gov Identifier: NCT03501303; Ragnarsson 2020). Patients for the current Right-Heart-Substudy will be recruited amongst the 269 patients included in the SWEDEGRAFT trial at Aarhus University Hospital from 10 September 2018 to 25 May 2020. Patients are enrolled at the time of SWEDEGRAFT follow-up with cardiac-CT (approximately 30 months after CABG). After written informed consent, we perform additional full 2D and 3D echocardiography with special focus on RV function, collect patient-reported data on functional outcome, and measure brain natriuretic peptide and hemoglobin levels.
This is a retrospective observational study drawing on data from the Brigham and Women's Home Hospital database. Sociodemographic and clinic data from a training cohort were used to train a machine learning algorithm to predict patient deterioration throughout a patient's admission. This algorithm was then validated in a validation cohort.