View clinical trials related to Heart Diseases.
Filter by:The objective of this study is to determine the impact of early post-operative feeding on splanchnic blood flow, cardiac output and end organ perfusion, and the patients overall clinical outcomes.
The focus of this study is to observe the impact of weight loss in overweight individuals who have pre-hypertension (have a blood pressure reading of 121-139/81-89 mm Hg). The specific focus is to observe the difference in diastolic dysfunction (heart function) in these individuals at the beginning of the study and then again after 24-28 weeks. Diastolic dysfunction in this population indicates an increased risk of heart failure in the future. The aim of this study is to prevent or reduce the risk of heart failure in overweight individuals with pre-hypertension.
The goal of this study is to evaluate specific hormone levels in children undergoing heart surgery in order to identify patterns associated with any unstable vital signs. The data collected will provide preliminary answers to the question "Are hormone values a determining factor for drug administration and dosing levels?" and help establish the benefits of routine steroid and hormone administration. Sixty subjects will be enrolled. Blood samples will be drawn before the surgery,and again nine hours after surgery for analysis. Other patient data such as medications, vital signs, routine lab values and treatments will also be analyzed. As our current standard of care includes routine doses of steroids, we believe this study will increase our general knowledge and improve the care of these critically ill children. The study will also provide the foundation needed for grant support from the American Heart Association, allowing for future larger scale studies.
The purpose of the database is to complete outcomes research of electrophysiological procedures.
The APPROPRIATE study will compare differences in functional capacity (peak VO2) between chronotropically incompetent patients randomized to receive rate responsive pacing driven by either the minute ventilation (respiration-based) sensor or an accelerometer (motion-based).
The Congenital Heart Disease Research Registry (CHDRR) is a program dedicated to understanding the etiology and improving the treatment of Congenital Heart Disease (CHD). This Registry will act as a central coordinating center for recruiting subjects with CHD and will provide infrastructure and guidelines for researchers studying the causes and treatment of CHD. Investigators working directly with the Registry will have access to biological, demographic and phenotype data from a significant pool of participants with CHD.
This trial evaluates the safety and effectiveness of catheter ablation for PAF. The investigational catheter being studied is the NAVISTAR® THERMOCOOL® irrigated-tip catheter. At the time of this study, the NAVISTAR® THERMOCOOL® Catheter was FDA-approved for commercial distribution in the U.S. for treating patients with Type I atrial flutter and drug refractory monomorphic sustained ventricular tachycardia post myocardial infarction. The catheter was approved for use in Europe for endocardial ablation for treating cardiac arrhythmias.
The purpose of this study tests whether beta-blocker will benefit asymptomatic patients with chronic primary mitral regurgitation.
The accuracy of stress single photon emission computed tomography (SPECT) is limited by imaging artifacts, many of which are caused by soft tissue attenuation. A recent multicenter study performed by our laboratory comparing 7 commercially available attenuation correction (AC) camera systems in a cardiac phantom showed the best performance with the GE Hawkeye (a hybrid gamma camera-CT scanner) and the University of Michigan M-step (unique feature a camera orbit of 360˚ versus the usual 180˚) systems. In this study we will combine the strengths of these two systems (GE Hawkeye AC system and 360˚ camera orbit) to test the accuracy of this imaging system in a population of 400 consecutive patients undergoing clinically indicated stress SPECT. These patients will undergo SPECT imaging both with conventional methodology and the GE Hawkeye system. The conventional study will be interpreted and reported in the usual clinical fashion. The GE Hawkeye images will be interpreted independently by 2 observers blinded to the results of conventional imaging and will not be reported clinically. The primary study hypothesis is that AC will substantially reduce attenuation artifacts (mild fixed defects) without reducing the accuracy of either normal studies or myocardial infarction (MI). Clinical data and noninvasive test results (history of MI, electrocardiogram, and gated wall motion) will be used to distinguish defects which represent attenuation (false-positive) versus those due to MI (true-positive).
Inhaled nitric oxide in patients with pulmonic valve insufficiency.