14 Clinical Trials for Various Conditions
The goal of this Phase I Open-Label study is to demonstrate the safety and feasibility of VentriGel injection in children with Hypoplastic Left Heart Syndrome (HLHS). The main questions it aims to answer are: * Whether VentriGel is safe in treating patients with HLHS * Whether there are any preliminary improvements in measures of cardiac function following Ventrigel injection
The purpose of this study is to test whether Lomecel-B™ works in treating patients with hypoplastic left heart syndrome (HLHS) and to gather additional information about the safety of Lomecel-B. Lomecel-B contains human mesenchymal stem cells (MSCs) as the active ingredient. MSCs are special cells in the body that are able to change into other types of cells, such as heart, blood, and muscle cells. MSCs are found in various tissues of the body, such as the bone marrow, which is the spongy tissue inside of your bones. Lomecel-B uses MSCs from bone marrow of unrelated young healthy donors. These are called "allogeneic", and do not require donor matching to the patient.
The primary aim of this study is to determine if clinically relevant doses of buccally administered oxandrolone are safe and tolerable in neonates with hypoplastic left heart syndrome (HLHS) or other single right ventricular anomalies who have undergone a Norwood procedure. The secondary aim is to evaluate the efficacy of buccally administered oxandrolone in improving objective indices of growth and nutrition in neonates who have undergone a Norwood procedure.
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.
Children with HLHS have a history of poor enteral intake and growth. Over the past several years a modification to the Norwood operation was instituted (RV to PA shunt in place of the standard Blalock-Taussig shunt). The purpose of this study is to evaluate whether children who underwent this modification of the Norwood procedure had improved growth compared to those in past years who underwent traditional Norwood.
This study is designed to assess the safety, tolerability, and efficacy of Lomecel-B as an adjunct therapy to the standard stage II (BDCPA) surgical intervention for HLHS. Lomecel-B will be delivered via intramyocardial injections
Cell-based cardiac regeneration has been the focus of acquired, adult heart disease for many years. However, congenital heart disease with severe structural abnormalities may also be reasonable targets for cell-based therapies. Interestingly, the pediatric heart is naturally growing and may be the most amendable to regenerative strategies. Therefore, identifying autologous cells (cells from the patient's own body) would be important to initiate these studies. This study aims to validate the use of umbilical cord blood as a source of autologous cells for the purpose of cardiac repair of congenital heart disease. Cells will be isolated from the cord blood to help us determine the feasibility of collection, processing, and storage of these samples at the time of birth of infants with prenatal diagnosis of hypoplastic left heart syndrome. This study may be useful for the development of pre-clinical and clinical studies aimed at the long-term goal of repairing damaged heart muscle.
The purpose of this initiative is to improve care and outcomes for infants with HLHS by expanding the NPC-QIC national registry to gather clinical care process, outcome, and developmental data on infants with HLHS between diagnosis and 12 months of age, by improving the use of standards into everyday practice across pediatric cardiology centers, and by engaging parents as partners in the process.
This protocol is a research study involving human subjects diagnosed with Congenital Heart Defects/Disease (CHD). The Co-Op @ HeartWorks is a cooperative between the research platform at HeartWorks and members of the CHD community. Individuals choosing to participate will be referred to as 'members' of the co-op. This study aims to create a database of members medical journey data to inform future clinical innovation and design of clinical trials which address the needs of the members. The knowledge generated from this study will help advance the care of CHD patients through the deliberate action of The Co-Op @ HeartWorks members. Unlike a traditional disease registry, the members of The Co-Op @ HeartWorks will actively inform and contribute to the future studies affecting their health.
Researchers want to better understand what happens to the heart when the autologous (from one's own body) stem cells are injected directly into muscle of the right side of the heart during the Fontan (Stage III) surgery. They want to see if there are changes in the electrical activity, the structure, and the function of the heart following this stem cell-based therapy. Researchers will compare the results from people who receive the stem cells to the results from people who do not receive the stem cells.
Researchers want to better understand what happens to the heart when the stem cells are injected directly into the muscle of the right side of the heart during the Stage II palliative surgery for single ventricle patients with hypoplastic left heart syndrome (HLHS) or HLHS variant. Researchers want to see if there are changes in the heart's structure/function following this stem cell-based therapy and compared to children that have not had cell-based therapy.
This study is intended to evaluate the safety and feasibility of intramyocardial injection of allogeneic mesenchymal cells during the Bi-Directional Cavopulmonary Anastomosis (BDCPA) surgery for hypoplastic left heart syndrome (HLHS) pediatric patients.
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.
Oxandrolone is an anabolic steroid, marketed in the United States as an adjunctive therapy to combat weight loss resulting from chronic infection, extensive surgery, severe trauma, protein catabolism associated with prolonged administration of corticosteroids, and for the relief of bone pain accompanying osteoporosis. In children, it has been used to prevent and treat growth failure associated with severe burns (≥ 40% of total body surface area), Duchenne muscular dystrophy, Turner's syndrome, constitutional delay of growth and puberty, and chronic wasting in HIV-positive pediatric patients. Other applications in children have included treatment of central idiopathic precocious puberty, hereditary angioedema, and bilateral congenital anorchia. Growth failure is a common feature of infants with complex congenital heart disease, and can adversely affect outcome. This therapy has not been previously implemented in neonates thus we will evaluate the safety and efficacy of administering oxandrolone to improve growth in neonates with complex congenital heart disease who have undergone surgical palliation or repair by collecting anthropometric measurements and pharmacokinetic data. Neonates with HLHS or variant with planned Norwood Procedure. The primary aims of this pilot study are to assess safety and efficacy of oxandrolone in this population. Our goal will be to enroll 5 patients in each phase of this pilot study. The incidence of adverse events will also be monitored and compared to untreated patients. Enrollment will continue until the target of 20 total patients has been met.