View clinical trials related to Congenital Heart Disease.
Filter by:Bicuspid aortic valve (BAV) is a form of congenital heart disease (the person is born with it). With BAV, the heart valves in the aorta (the blood vessel that takes blood away from the heart to the body) are not formed right. A person with BAV has only 2 leaflets instead of three and the valve leaflets are often thickened. This can result in the block of blood flow across the valve (aortic stenosis) and/or valve leakage (aortic valve regurgitation). From our experience at least 1/3 of patients with BAV will eventually develop complications. Many patients with BAV do not develop significant problems until well into adulthood. The most common problem in BAV patients is aortic dilatation and/or dissection. At this point, we do not know on who or why aortic dilatation or dissection occurs.It is unclear whether the enlargement is because of abnormal blood flow patterns, as a result of the shape of the bicuspid valve, or whether it is because the way the aortic valve and/or vessel is formed. In other words, the abnormal shape of the aortic valve may cause blood to flow in a different way than it normally would, causing damage to the aorta as blood leaves the heart. There may be a problem with the way the aortic valve connects to the aorta, which causes the aorta to get larger or break down over time. It is also possible that the wall of the aorta in patients with BAV is weaker than it would be in patients without BAV. At this point, we do not know. It is believed by the investigators that if we can determine why the aorta gets larger or tears, we can minimize the effects or prevent them altogether. This study will collect blood and cardiac MRI images from forty-five (45) patients at Children's Healthcare of Atlanta Egleston. There will be a study group (patients with BAV) and a control group of patients (patients scheduled for a cardiac MRI but without BAV). All enrolled patients will have blood drawn by nursing staff from a peripheral vein and collected in tubes for testing the day of their MRI scan. This test is called a plasma matrix metalloproteinase level. It is believed that patients who have bicuspid aortic valves and dilated aortas have high plasma levels of this protein. This study will compare the MRI images and plasma matrix protein levels of all the patients participating in the study.
There have been many improvements in the care of children with hypoplastic left heart syndrome (HLHS). This has helped these children survive longer. Because these children now live longer, researchers are recognizing developmental disabilities (the children are behind in their thinking or physical activity) in children with hypoplastic left heart syndrome. The purpose of this research study is to help the investigators learn more about developmental disabilities in children with hypoplastic left heart syndrome. During the time of your child's first surgery for hypoplastic left heart syndrome, a monitor was placed on your child's forehead to measure the oxygen levels in the brain. This monitor is called Near Infrared Spectrometry (NIRS). The researchers involved in this study want to know if oxygen levels in the blood vessels of the brain have any effect on developmental disabilities later in life in children with hypoplastic left heart syndrome. The researchers plan to enroll 60 research subjects.
The purpose of this study is to determine whether intravenous N-acetylcysteine (also known as Acetadote), an antioxidant medication that has been used for years to treat Tylenol overdose, helps prevent heart dysfunction in the early postoperative period following congenital heart surgery. Children undergoing major heart surgery, such as the arterial switch operation, routinely develop temporary heart dysfunction in the first 12-24 hours after surgery. This heart dysfunction may be severe and contributes to an increased risk for death or prolonged hospitalization. Current standard treatments include intravenous medications such as dopamine, epinephrine, and vasopressin that support your child's blood pressure and heart function. Unfortunately, high doses of these medications have the potential to cause severe side effects including loss of fingers and toes, liver and kidney dysfunction, and heart rhythm abnormalities. Our goal is to find a way to reduce heart dysfunction after major heart surgery in order to promote a smoother postoperative period, and reduce the risks associated with heart operations in children.
The purpose of this study is to determine the best red blood cell(hemoglobin) level for infants and children following surgical repair of particular heart defects. These children often receive red blood cell transfusions after surgery, but what the best hemoglobin level is for them remains unknown.
The objective of these studies is to identify genetic factors that contribute to the pathogenesis of complex congenital heart disease and other more rare conditions resulting from disturbances in organ positioning. These are a group of medical conditions that are thought to stem from a poorly understood disturbance in the establishment of the basic body plan in the embryo. While the outside of the human body is generally symmetric with mirror image left and right sides, the positions of some internal organs are distinctly asymmetric. For example, the heart could not function properly as a mechanical pump if its connections to major blood vessels retained their initial symmetry. The left ventricle of the heart normally pumps blood to the body, while the right ventricle normally pumps blood to the lungs. Reversals in these blood vessel connections can be fatal. Similarly, the gut characteristically loops in a counterclockwise direction placing the stomach on the left side in most cases. Rare laterality anomalies can occur if this looping is in the other direction, or randomized (equally likely to loop in either direction). Serious medical problems can be caused by disturbances in the establishment, or maintenance of left-right (L-R) differences as key organs are developing in the embryo. We have established formal collaborative agreements with three major centers who have collected a large number of coded cases of congenital cardiac disease. Our research objective is to try to understand if specific genetic changes can contribute to a range of cardiac malformations. We utilize mutational analysis of candidate genes as our principal tool to study the genetics of L-R axis malformations. This protocol is also open to other conditions whose basis is also thought to result from L-R problems. In all cases, the patients continue under the care of the referring physician. We anticipate a minor role of NIH researchers and genetic counseling services if subjects either do not have, or cannot afford, similar services in their local area. This is not a treatment protocol. Our empiric ability to generate medically significant research results is limited by the extensive genetic and other etiologic heterogeneity. Therefore, this research is not a diagnostic study. At this stage of research, we are not sufficiently confident that our research results will have direct medical implications for research subjects. Results that are of potential medical importance will be discussed with the primary physician who is (in most cases) a trained cardiologist (and/or medical geneticist). We will emphasize that these are only preliminary research findings, that they are not CLIA-approved, and must be disclosed to the patient or included in the medical record. Repeat testing in a CLIA-approved lab under another protocol would be required before the genetic information could be shared with the patient and family.
The object of this study is to measure the levels of B-type Natriuretic Peptide (BNP) in patients with congenital heart disease, normal individuals, and patients with acquired heart failure, and compare the results from each group.
First, we, the researchers, hope to find out the PCT response to heart surgery in children by taking blood before surgery and each day for four days after surgery. These blood draws will help us figure out the typical Procalcitonin (PCT) response, the normal increase in PCT after heart surgery, and when the PCT level returns to baseline. Second, we, the researchers, hope to determine the accuracy of PCT as a marker of infection. Hypothesis Our hypothesis is that Procalcitonin is superior to other currently used markers of infection and will prove to be a clinically useful tool for evaluation of infection in children following cardiac surgery.
The purpose of this study is to assess brain natriuretic peptide levels to evaluate the relationship of those levels with the diagnosis of congenital cardiac disease, operation performed, post-operative course, and outcome.
There are many kids born with congenital heart disease. Some of these defects may lead to the formation of a single ventricle (the heart having only one pumping chamber). These children normally undergo a series of corrective surgeries to help overcome the problems of having just one ventricle. However there are some differences in how well the patients respond to the surgeries. In the adult population, studies have shown that there may be a genetic link that may be responsible for the differences in how patients respond. The investigators would like to study the pediatric population by looking for certain genetic markers in the patients' blood. They will also collect basic health information on each patient.
In this study, the investigators wish to use images obtained from standard of care cardiac MRI's performed at Children's Healthcare of Atlanta and transfer the images to a different computer in order to analyze them with a new computer. The investigators are hoping to better their understanding and management of complex congenital heart disease.