View clinical trials related to Congenital Heart Defects.
Filter by:Patients with congenital heart disease have long been discouraged from participating in physical exercise which has led to impaired exercise capacity in this population. Since low physical and cardiorespiratory fitness has been shown to be a predictor for hospitalization and mortality in grown-up patients with congenital heart disease (GUCH), aerobic endurance training has been recommended recently to improve exercise capacity. The aim of this study is to compare two types of training, namely high-intensity interval training (HIIT) and moderate-intensity continuous exercise (MICE), with regard to improving exercise capacity without adverse effects on heart structure, function and rhythm in the setting of a 12-week outpatient cardiac rehabilitation (CR) program in GUCH with a remaining pathology involving the right and/or left ventricles. Primary endpoint will be change in exercise capacity (maximal oxygen consumption) over the 12-week CR. Secondary endpoints will be changes of the right or left ventricles as well as vascular function. Patients with GUCH and reduced function of the right ventricle will be recruited and informed about the study within the first two weeks of CR. At the end of week 3 of the CR with supervised MICE, randomization to 9 weeks of twice weekly either HIIT or MICE takes place. MICE training is performed at an intensity of 70-85% of maximum heart rate (HRmax) for 38 min. HIIT consists of four 4 min bouts of high-intensity exercise (90-95% of HRmax), interspersed by 3 min low-intensity intervals (50-60% of HRmax). All patients complete one additional endurance activity per week in their own time with a duration of 30-60 min at moderate intensity monitored by their smart phone. Change in peak oxygen uptake as well as maximal exercise capacity at the end of an incremental cardiopulmonary exercise test will be assessed between week 3 and 12. Vascular function will be assessed at the same time. Volumes and function of the right and left ventricles will be measured by cardiac magnetic resonance imaging (CMR) upon inclusion into the study and at completion of the intervention. Furthermore, laboratory markers for heart failure as well as occurrence of irregular fast heart beats will be assessed.
We propose a retrospective review of patients with DiGeorge syndrome having undergone cardiac surgery to evaluate the incidence of blood stream and/or surgical site infection. The hypothesis is that we will find an increased number of infections for this sub-group. We will compare the incidence of infection to children of similar age and diagnosis to evaluate for variances in the incidence of infection.
The purpose of this study is to elucidate the patterns of death following congenital heart surgery.
In today's world of advanced surgery, children born with congenital heart disease (CHD) are surviving into adulthood. However, the surgical procedures these children undergo do not cure the underlying problem and this these children develop other heart problems later in life. Heart failure is the one of the most common heart problems effecting these patients. This heart failure can be seen in both lower pumping chambers of the heart, however, sometimes only one side of the heart is affected. Since there are several congenital heart defects that are now seen in the adult population, an understanding of what causes heart failure in this patient population can help physicians develop better treatments for this condition. The goal of this study is to review the medical records of 350 adult patients with congenital heart disease that has developed heart failure. During this review, we plan to collect information regarding the various treatments utilized in these patients and to determine if there are any common elements regarding the development of heart failure in adult patients with CHD.
There are many children that have heart dysfunction because they are either born with Congenital Heart Disease (CHD) or developed poor heart function because their hearts are ill. The invention of medical technology helps in the treatment of these children. New heart echocardiogram (echo) techniques including Tissue Doppler (TDI), Tissue Synchronization Imaging (TSI) and 3 dimensional echocardiography (3D) are imaging technologies that we hope will help in the diagnosis and treatment of these children. Tissue Doppler Imaging is a noninvasive technique that measures the speed of heart muscle movement. Tissue Synchronization Imaging measures how well the lower pumping chambers of the heart are working together. A 3D echo is a 3 dimensional picture of a beating heart that allows your doctor to see the heart from any angle. These techniques are noninvasive, meaning on the outside of your body. The size and function of the ventricles (the lower part of the heart) can change under different conditions. Using these techniques we will attempt to better determine how well the ventricles function during illness and health.