View clinical trials related to Hypoplastic Left Heart Syndrome.
Filter by:This is a Phase I study to determine the safety and feasibility of injections of autologous umbilical cord blood (UCB) cells into the right ventricle of Hypoplastic Left Heart Syndrome (HLHS) children undergoing a scheduled Glenn surgical procedure. The investigators are doing this research study to find out if autologous stem cells from the individual's own umbilical cord blood can be used to strengthen the muscle of the right side of their heart. This will help determine the safety and feasibility of using cell-based regenerative therapy as an additional treatment for the management of HLHS.
The purpose of this study is to investigate the efficacy of intracoronary infusion of cardiac progenitor cells in patients with univentricular heart disease. Patients with preoperative high-risk group or whose cardiac function did not recover postoperatively eventually have no choice other than heart transplantation.
For fetuses with severe aortic stenosis, in utero balloon aortic valvuloplasty may improve fetal growth of left heart structures and thus improve potential for biventricular repair strategies after birth.
Hypoplastic left heart syndrome (HLHS) is a severe form of congenital heart disease that consists of multiple obstructions to flow through the left heart and aorta, as well as hypoplasia of the left ventricle. Most patients require a three-stage surgical protocol starting within days of birth. Stage I of this process is the Norwood reconstruction (within the first few days of life), Stage II (usually required within 3-8 months) involves creation of a direct connection between the patient's superior vena cava and the pulmonary arterial confluence (bidirectional Glenn anastomosis), and the last stage is creation of a Fontan circulation (typically within the first 2-4 years). This "single ventricle" approach requires the right ventricle to perform as the only circulatory pump for the entire body. Our long-term goal is to develop regenerative strategies to strengthen and augment the right ventricular muscle of the single-ventricle heart following surgical palliation in HLHS patients. To determine the safety and feasibility of a cell-based therapeutic intervention at the Stage II surgery, we aim to document the natural history of post-surgical care in HLHS patients having undergone standard of care with protocol specific follow-up over the course of a 6-month period. This prospective study will document the natural history in patients with HLHS after planned Stage II surgical palliation with a focus on cardiovascular parameters within 6 months following surgery in 10 patients.
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.
The purpose of this study is to learn about the relationship between family factors and developmental and psychosocial outcomes in children with congenital heart disease at 6 years of age. A secondary purpose is to learn more about psychosocial outcomes in children with congenital heart disease and their families over time. About 250 mothers and fathers at 15 medical centers will take part in this study; 35 will be from Children's Hospital of Wisconsin.
The purpose of this study is to determine whether Bosentan is an effective and safe treatment to adolescent and adult (15 years and older) patients, born with one ventricle of the heart instead of two (single ventricle physiology) and who have undergone TCPC as a palliative surgical treatment. The aim of the TCPC operation is to use the one functioning ventricle to pump the blood flow to the body, while the blood to the lungs is received directly from the caval veins, and is thus a passive flow, without the aid of a ventricle to actively pump the blood through the pulmonary circulation. The resistance in the pulmonary circulation is therefore critical to these patients. These patients have markedly lower work capacity in bicycle test than the general public. Furthermore they have a high risk of developing complications e.g. loss of protein from the intestines. Bosentan is a medication that lowers the resistance in the pulmonary circulation. It is routinely used for patients with pulmonary hypertension. Some studies have shown that drugs that lower the pulmonary resistance can increase exercise capacity significantly in patients with single ventricle physiology. In this study 80 patients will receive either placebo or Bosentan for 14 weeks. Before and after the treatment, bicycle test along with blood samples, stool samples and quality of life interviews will be performed. Every four weeks during the study blood samples, physical exam and interviews will be performed to ensure the safety of the treatment. The investigators expect to find a significant increase in work capacity after 14 weeks in the treatment group compared with the placebo group. Moreover the investigators hope to find a decrease in intestinal protein loss and an improved quality of life.
Hypoplastic left heart syndrome (HLHS) and related anomalies involved a single ventricle are characterized by hypoplasia of the left heart and the aorta with compromised systemic cardiac output. Infants with the syndrome generally undergo a staged surgical approach in view of an ultimate Fontan procedure. Although long-term survival in patients with HLHS and related single ventricle physiology has improved markedly with advances in medical and surgical therapies, a growing number of infants will ultimately require heart transplantation for end-stage heart failure due to several potential disadvantages include a negative effect on right ventricular function, arrhythmia, additional volume load via regurgitation from the nonvalved shunt, and impaired growth of the pulmonary artery. Risk factors for poor outcome of heart transplantation with HLHS and single ventricle physiology are older age at transplantation and previous Fontan operation. New strategies are needed to improve the underlying transplant risks proper for the Fontan failure patients. Emerging evidence suggests that heart-derived stem/progenitor cells can be used to improved cardiac function in patients with ischemic heart disease. In this trial, the investigators aimed to test the safety and feasibility of intracoronary injection of autologous cardiac progenitor cells in patients with HLHS and related single ventricle anomalies and that could improve ventricular function at 3 months' follow up.
Babies born with hypoplastic left heart syndrome (HLHS) have three separate, complex heart surgeries before they turn three years of age. The first surgery typically happens in the first two weeks of life. After this operation, babies come back to the intensive care unit with their chests open. Babies who have heart surgery retain body water after surgery and this extra water slows recovery. Surgeons cannot close the chest until the baby gets rid of the extra water. As a result, babies have to stay in the intensive care unit and on a breathing machine for longer. Peritoneal dialysis, also known as PD, involves placing a small catheter into the belly cavity at the time of surgery. PD helps the kidney to get rid of extra body water. PD involves putting small amounts of special fluid into the belly through the catheter. This special fluid attracts water and is drained hourly. By allowing the belly cavity to drain, this helps both the heart and the lungs. This allows the chest to be closed and the breathing tube to be removed. The investigators are looking to see how quickly the babies, with and without PD, get rid of the extra water in turn shortening their stay in the intensive care unit and in the hospital. PD is not permanent, and only used for the first few days after the operation.
The purpose of this study is to determine whether children and adolescents 8-18 years of age with HLHS and related lesions who have undergone stage I palliation during infancy using an allograft patch demonstrate continued evidence of HLA antibody formation.