8 Clinical Trials for Various Conditions
Many patients with end-stage heart failure, a condition in which the heart fails to pump enough blood to support the body's other organs, are fortunate enough to receive a heart transplant. However, despite taking medicines aimed at blunting the immune system's response to the donor heart, some of them will develop transplant-related disease in the coronary arteries supplying their hearts. Fifty years after the first human-to-human heart transplant, this disorder-cardiac allograft vasculopathy (CAV)-remains a leading cause of long-term death and has been coined the 'Achilles' Heel' of heart transplantation. Indeed, a better understanding of how CAV occurs and improved therapies to prevent and/or slow its development are desperately needed to meaningfully impact patient outcomes. Endothelin-1 (ET-1) is a key molecular regulator of arterial health, and our prior data suggests that it is associated with accelerated CAV. In this particular study of recent heart transplant recipients, we are asking: Does ET-1 contribute to the coronary artery's capacity to dilate/constrict? To answer this question, during the cardiac catheterization at 1 year post-transplant (standard of care), we will measure blood levels of ET-1 and perform an invasive evaluation of coronary vasomotor function inn a consecutive subset of patients who will have received a 1-week course of the oral endothelin receptor antagonist (macitentan) prior this catheterization, which will allow us to test how much ET-1 contributes to coronary responsiveness. The findings from this study may provide the necessary foundation to study whether endothelin receptor antagonists are able to effectively reduce the rate of accelerated CAV.
Cardiac allograft vasculopathy (CAV) is a unique form of accelerated plaque formation seen in the coronary arteries of patients who have received heart transplantation. It is a major cause of morbidity and mortality in patients after heart transplant. Little progress has been made in characterizing this disease process, with more sophisticated imaging allowing for more detailed analysis of CAV, superior stratification of transplant recipients is possible and earlier interventions can be performed if necessary to prevent mortality and graft loss. Optical Coherence Tomography (OCT) is a novel imaging modality with much higher resolution then Intra-Vascular Ultrasound (IVUS). This study will involve examining patients post-heart transplant using this high-resolution imaging modality. It is currently the standard care for patients post-heart transplant to receive annual coronary angiograms with close follow up. Patients will be imaged using OCT at the time of their routine annual angiogram, and will be re-imaged one year later at the time of the next annual angiogram or earlier if clinically indicated. The study goal is to better characterize CAV in vivo with OCT imaging and to try to identify patterns of the disease, including intra-coronary risk assessment.
The purpose of this study is to test the hypothesis that administering Thymoglobulin® induction therapy early after transplant prevents the development of cardiac allograft vasculopathy (CAV). CAV accounts for a significant number of deaths in cardiac recipients after the first year of transplant. At 5 years post-transplant 30% of the deaths are due to CAV. With the exception of re-transplantation the available treatments for CAV are only effective at inhibiting its progression. CAV involves only the allograft and spares the native arteries, suggesting an immunologic basis for the disease. However, both immunological and non-immunological factors contribute to the development of CAV. The established immunological risk factors are recurrent rejection and humoral/antibody-mediated rejection (AMR). Non-immunological risk factors identified include preservation injury, the cause of donor death, donor graft ischemic time, and cytomegalovirus infection1. It is hypothesized that these factors increase the risk of developing CAV by causing early endothelial damage to the graft, which then could promote increased lymphocyte-endothelial interactions and the production of anti-endothelial antibodies2. The investigators hypothesized that Thymoglobulin induction therapy would prevent the development of CAV because its polyclonal nature allows Thymoglobulin to target all the potential mechanisms that contribute to the development of CAV-T-cell activation, B-cell activation, antibody formation, induction of tolerance, and modulation of lymphocyte-endothelium interactions3. Because the mechanism by which Thymoglobulin affects the immune system are still poorly understood, the investigators will also study how Thymoglobulin changes the immune system over time in the heart transplant recipient as a secondary objective.
Purpose: To show early feasibility of magnetocardiography (MCG) to identify coronary Cardiac positron emission tomography (PET) is the preferred non-invasive tests to assess for CAV and incorporation of quantitative myocardial blood flow (MBF) assessment improves diagnostic accuracy. Based on ISHLT criteria, the following have been proposed for diagnosis of CAV by PET:
All people who have a heart transplant are at risk for developing cardiac allograft vasculopathy (CAV). CAV means narrowing of the heart transplant vessels, which is associated with poor heart transplant function. People who develop antibodies after transplant have a higher risk of developing CAV. Infections, high cholesterol, and rejection also increase the risk of developing CAV. People who develop CAV usually have to receive another transplant.
Coronary allograft vasculopathy (CAV) is diffusely accelerated atherosclerosis of a transplanted heart. Evolocumab (Repatha) is an FDA-approved drug for lowering low density lipoprotein (LDL) in patients who have not received a heart transplant. This drug works as a PCSK9-inhibitor. The primary objective of this study is to measure the impact of PCSK9-inhibitors on serum LDL in heart transplant patients with CAV after 12 weeks compared to baseline.
Hypothesis: CAV is associated with fibrotic changes on cardiac MRI, altered levels of pathogenetically-related biomarkers, and specific RNA expression changes in the blood
Cardiac allograft vasculopathy (CAV) is a progressive disease of the coronary arteries in transplanted hearts which is a significant cause of morbidity and mortality. The broad objective of this research study is to advance our ability to diagnose as early as possible the presence of CAV and to non-invasively predict those patients at increased risk of CAV with novel techniques. Optical coherence tomography (OCT) is a novel intracoronary imaging technique using an optical analog of ultrasound with a resolution 10 times greater resolution than intravascular ultrasound (IVUS). Endothelial progenitor cells (EPCs) in peripheral blood have been shown to play a role in the pathogenesis of atherosclerosis and peripheral arterial tonometry is a clinical tool used to predict endothelial dysfunction (a precursor of atherosclerosis) which has been validated in non-transplant patients. Patients scheduled for routine cardiac catheterization with IVUS at the Mayo Clinic Rochester, Minnesota (MN) that reach inclusion and exclusion criteria for the study will be approached on the day to get informed consent to perform OCT, blood sampling and peripheral endothelial function testing. The investigators aim to 1) compare the frequency and plaque type of CAV as defined with OCT versus IVUS-Virtual Histology (IVUS-VH), 2) predict the presence and severity of CAV with absolute counts of EPCs and 3) with peripheral endothelial function scores.