29 Clinical Trials for Various Conditions
The investigators propose to study the relationship between right ventricle (RV) steatosis and RV function, exercise capacity, and outcomes in humans with pulmonary arterial hypertension (PAH) and to identify potential drivers of lipid accumulation.
This is an observational study that will recruit NYU Langone patients undergoing standard of care right ventricle endomyocardial biopsy. Patients who undergo planned RV-EMB via transbrachial access will be invited to take part in the study.
This study will include the placement of a pressure volume (PV) loop catheter in the right atrium of patients undergoing left ventricular assist device (LVAD) placement and measure relevant PV loop data. Transesophageal echocardiography (TEE) and pulmonary artery (PA) catheter parameters as comparators to the PV loop will be recorded.
This study is looking to see if giving ranolazine to subjects on stable pulmonary hypertension therapies but with right ventricular dysfunction (RVEF \<45%) will improve their health by improving right ventricular (RV) function.
This study is looking to see if giving ranolazine to subjects on stable pulmonary hypertension specific therapies but with right ventricular dysfunction (RVEF \<45%) would improve their outcome. This study is accompanied by a baseline comparison of the metabolic profiling/microRNA/iPS cells of subjects with and without right ventricular dysfunction.
Patient-specific, 3D printed models have been utilized in preoperative planning for many years. Among researchers and clinicians, there is a perception that preoperative exposure to 3D printed models, derived from patient images (CT or MRI), aid in procedural planning. 3D printed models for heart surgery have the potential to improve a clinician's preparedness and therefore may reduce surgically-related morbidity and mortality. This randomized clinical trial aims to evaluate whether pre-procedural planning of surgeons exposed to a patient-specific 3D printed heart model will decrease cardiopulmonary bypass time, morbidity, and mortality.
The purpose of this study is to utilize cardiac imaging data acquired as part of the standard of care for these patients, such as MRI, 3D echo, and CT, and existing 3D reconstruction protocols to assess the feasibility of using surgical planning in the treatment of patients with complex cardiac defects. The specific aims of the project are as follows: 1. Develop a protocol to reconstruct heart models from patient imaging data and perform "virtual" surgery on reconstructed 3D anatomy using appropriate, pre-existing patient datasets. 2. Use the developed protocol to prospectively plan and evaluate the possible surgical options for new patients. 3. Validate that the optimal virtual anatomy agrees with what was surgically implemented using post-operative patient scans, when available.
The purpose of this study is to determine if the Medtronic Freestyle porcine valve is effective over a long period of time when it is used to replace the valve that normally allows blood to flow from the right lower pumping chamber of the heart to the lungs.
This real-world, international registry aims to evaluate the current experience with sodium-glucose cotransporter 2 inhibitors (SGLT2i) in adult congenital heart disease (ACHD) patients by investigating the prescription patterns, safety, tolerability, and potential beneficial effects on heart failure-related outcomes.
The CERAMICS study is designed to more clearly delineate the current care of acute myocardial infarction with cardiogenic shock (AMICS) patients who are treated with mechanical circulatory support (MCS) devices in the United States with significant experience in MCS, all of whom have the capability of MCS escalation on-site. Study enrollment is targeted at 120 patients at 20 hospital sites, evaluating clinical outcomes, and focusing on outcomes MCS escalation decision making and ICU level management.
Heart failure is a common long-term complication in patients with congenital heart disease (CHD). Medical treatments to promote regeneration of new healthy heart muscle cells have the potential to provide new heart failure treatments for these patients. The development of such therapies is limited by the poor understanding of the ways in which heart muscles grow after birth. Investigators have learned that humans without heart disease generate new heart muscles cells up to the age of 20 years old and that this is decreased in patients with congenital heart disease like Tetralogy of Fallot. Investigators are trying to determine if treatment with a medicine called Propranolol can increase heart muscle cell proliferation and, with that, normalize heart growth. Investigators will examine discarded heart muscle tissue that is obtained during surgery for the presence of new heart muscle cells. Propranolol is approved by the Food and Drug Administration (FDA) to treat a certain kind of benign tumor in infants (hemangioma), but it is not currently approved by the FDA to increase heart muscle growth.
This clinical trial is studying the use of different levels of oxygen exposure during and after cardiopulmonary bypass in eligible infants to learn about its safety during heart surgery. In addition to having the various doses of oxygen, participants will also have blood samples, ultrasounds of the head, and brain wave patterns monitored. The hypotheses of this trial are: * that there will be no difference with regards to adverse events between the infants in the normoxia group compared to the infants in the standard of care group * there will be a significant difference in the measured partial pressure of oxygen (PaO2) values between the two treatment groups. * the use of normoxia during cardiopulmonary bypass and in the immediate post-operative period will result in clinically significant decrease in oxidative stress as measured by thiobarbituric acid reactive substances (TBARS) after cardiac surgery
This study will investigate Ebstein's anomaly, a congenital abnormality of the tricuspid valve of the heart and try to identify the genetic origins of the disease. Adults and children 2 years of age and older with Ebstein's anomaly and healthy volunteers may be eligible for this study. Participants undergo the following procedures: * Blood tests: Three tube of blood will be collected, with the total amount limited to about half a teaspon for each two pounds of body weight. * Saliva sample collection: A small amount of saliva is collected by spitting into a sterile container. * Oral (cheek) swab: Cells are collected from the mouth using a soft brush to swab the inside lining of the cheek. * Electrocardiogram: The electrical activity of the heart is recorded using electrodes placed on the chest. * Echocardiogram: Heart function is assessed using ultrasound.
Evaluation of the Safety and Efficacy of the Symphony Thrombectomy System in the Treatment of Pulmonary Embolism
This research study is being done to find out if exercise therapy can help improve the heart function, overall health, and quality of life of patients with pulmonary hypertension caused by heart failure.
This is a Phase III randomized controlled trial of a passive ROM exercise program that will be performed in infants with HLHS and other single right ventricle anomalies following the Norwood procedure at PHN and Auxiliary Centers.
The purpose of the study is to assess the effects of selexipag on right ventricular (RV) function in participants with Pulmonary arterial hypertension (PAH).
This is a prospective, observational, multicenter cohort study to compare right ventricular dysfunction dependent and independent prognostic models for short-term serous adverse events in patients who are diagnosed with pulmonary embolism in the emergency department. Clinical endpoints are assessed at days 1-5. A thirty-day follow-up phone call is conducted to obtain further clinical endpoints and a quality of life assessment.
The objective of this study is to determine the safety and feasibility of autologous mononuclear cells (MNS) collected from bone marrow (BM) and using an add-on intramyocardial delivery for individuals with Ebstein anomaly undergoing surgical intervention compared to the control group undergoing the same surgical procedure without cell delivery. This add-on procedure has the potential to foster a new strategy for individuals with congenital heart disease.This is an open-label study of autologous MNC derived from bone marrow with a 2-year follow-up to document 1) incidence and severity of adverse event and 2) monitor changes in cardiac structure and function.
The purpose of this study is to use non-invasive imaging to determine the metabolic phenotype of the right ventricle in patients with pulmonary arterial hypertension across a spectrum of disease severity.
Evaluate the safety and effectiveness of the FlowTriever System for use in the removal of emboli from the pulmonary arteries in the treatment of acute pulmonary embolism.
The purpose of this study is to assess the safety of ranolazine in people with pulmonary arterial hypertension (PAH) and who are receiving 1 or more background PAH therapies: ambrisentan, sildenafil,tadalafil, epoprostenol, treprostinil (IV, SC, inhaled), or iloprost. The primary objective is: * To estimate the effect of ranolazine administration on acute hemodynamics. * To assess safety of ranolazine acutely over 6 hrs in the catheterization lab and after 12 weeks of therapy * To assess changes in right ventricular function after 12 weeks of therapy.
The objectives of this study are to determine the: 1. Diagnostic value of stress induced RV changes on Lexiscan stress MPI as compared to Exercise stress MPI in predicting a significant CAD. 2. Prognostic value of stress induced RV changes on Lexiscan stress MPI in predicting adverse short-term and long-term clinical outcomes after the index test.
This study is designed to better understand the effects of nitric oxide, a gas for inhalation, on patients with right ventricular infarction.
The primary purpose of this study is to learn if taking pictures of your heart using two dimensional and three dimensional echocardiography in the heart failure intensive care unit can be helpful to understanding how the heart is working. All research subjects will be adults admitted to the heart failure ICU with acute decompensated heart failure and requiring monitoring of their heart function using a catheter that is placed in the pulmonary artery which is a blood vessel. In this situation, use of the pulmonary artery catheter,or PAC, is considered standard clinical care. It is not a research procedure. The PAC would be used even if you were not participating in this research project. All research subjects will be evaluated at the time they are admitted to the ICU, 24 to 48 hours after admission to the ICU, and 7 days after leaving the ICU. At all three time points, we will be taking pictures of the heart using the two dimensional and three dimensional echocardiogram. Additionally, at each time-point, we will collect a blood sample of approximately two and a half tablespoons each time, and a urine sample. We will be testing the sample for biomarkers of heart failure which are proteins and enzymes specifically related to heart function. We will not be conducting any genetic research on the sample. Any extra blood from these research tests will not be saved for future research. We will also be looking at the data that is collected by the pulmonary artery catheter. The catheter has a sensor on it that measures things like blood flow and pressure in the heart. At the Day 7 post discharge visit there will be a six minute hall walk so that we can access the distance that you can walk. We will access any symptoms that you may experience. A nurse or physician will monitor the six minute hall walk. The research information that we collect on you will not be placed in your medical record. The data is for research purposes only.
This study seeks to determine cerebral blood flow changes in single ventricle patients during staged surgical reconstruction as compared with normal children. Two general groups of single ventricle patients will be recruited for this study, corresponding to the two approaches used. An aged-match group of healthy subjects will be included as a control.
Purpose: To evaluate the pharmacokinetics, bioavailability and hemodynamic efficacy of ambrisentan after Fontan surgical palliation of single ventricle heart defects. Study activities and population group: Children undergoing Fontan surgical palliation for single ventricle defects will be eligible for the study. Up to 20 subjects will be enrolled (16 ambrisentan, 4 placebo) and will receive 3 days (3 doses) of ambrisentan starting on post-operative day #1 upon returning from the operating room. Ambrisentan plasma levels will be obtained at specified time points during treatment. Post-operative monitoring lines will be used to measure effects of ambrisentan on hemodynamics and pulmonary / systemic endothelial function.
Patients with single ventricle anatomy undergo staged surgical palliation. The result is an "in series" circulation with pulmonary blood flow and cardiac output directly related to pulmonary vascular resistance. While surgical outcomes have improved, the physiology of the single ventricle palliation results in continued long term attrition. Elevated pulmonary vascular resistance and impaired systemic ventricular function are important risk factors for failure of single ventricle palliation. Sildenafil is a pulmonary vasodilator and has been shown to improve cardiac contractility in the pressure overloaded right ventricle. The investigators will assess the safety, pharmacokinetics and hemodynamic efficacy of sildenafil in single ventricle patients following stage II and III surgical palliation.
The purpose of this study is to examine the role of genetic variation in the oxidative stress response on critical perioperative and short-term outcomes after neonatal heart surgery. The goals will be to determine 1) if the oxidative stress pathway is an important one for therapeutic intervention in neonates with severe congenital heart defects and 2) if variants in the oxidative response pathway can be used to identify patients at increased risk for adverse outcomes.