125 Clinical Trials for Various Conditions
The goal of this clinical trial is to learn if a virtually-delivered, group-based psychological intervention, called Tuning in to Kids, is feasible and acceptable for parents of children aged 3 to 6 years with congenital heart disease. The main questions this study aims to answer are: * What do parents of children with congenital heart disease think of the Tuning in to Kids intervention? * Is the intervention helpful for parents? * Is the intervention easy for parents to take part in? * Do the researchers find it easy or difficult to deliver the Tuning in to Kids intervention to parents of children with congenital heart disease? Participants will: * Fill out 3 online surveys at home. * Take part in the Tuning in to Kids intervention (which includes six 90-minute, weekly, online group sessions and two booster sessions) or standard cardiac care. * Take part in an interview.
The overall goal of this study is to understand the feasibility of using a wireless sensor device (instead of a wired device) to collect information used to monitor children with heart conditions at home.
Babies with single ventricle congenital heart disease (SVCHD) are often diagnosed during pregnancy. While prenatal diagnosis has important clinical benefits, it is often stressful and overwhelming for parents, and many express a need for psychological support. HeartGPS is a psychological intervention for parents who receive their baby's diagnosis of SVCHD during pregnancy. It includes 8 sessions with a psychologist, coupled with tailored educational resources, and a personalized care plan. The intervention focuses on fostering parent psychological adjustment and wellbeing, and supporting parents to bond with their baby in ways that feel right for them. Through this study, the investigators will learn if HeartGPS is useful and effective for parents and their babies when it is offered in addition to usual fetal cardiac care. The investigators will examine the effects of the HeartGPS intervention on parental anxiety, depression, and traumatic stress; fetal and infant brain development; parent-infant bonding; and infant neurobehavioral and neurodevelopmental outcomes. The investigators will also explore mechanisms associated with stress biology during pregnancy, infant brain development and neurodevelopmental outcomes, and parent and infant intervention effects.
This is a multi-site research study with an optional research repository that will consist of clinically derived data and photographic or video images of patients in the home setting with complex health conditions to evaluate the safety and efficacy of the CHAMP® software platform, with data and photographic or video images input and/or uploaded by the parent or other legally authorized representative (LAR) of patients with complex congenital heart disease as a target population.
The Congenital Heart Disease Physical Activity Lifestyle Intervention Study (CHD-PALS) V.2 seeks to determine the efficacy of a lifestyle intervention program for adolescents and young adults (AYAs) with congenital heart disease (CHD). This trial was adapted from the original CHD-PAL trial to continue improving cardiovascular outcomes for transition-aged CHD survivors.
Cardiopulmonary bypass and arrest of the heart during cardiac surgery are necessary to allow the surgeon to perform heart operations. However, these processes can cause injury to the heart which may worsen post-operative outcomes. In fact, the effects of these injuries may continue after surgery, and lead to a long-term decrease in heart function. Neonates and young infants are at particular risk for this occurrence. While much research has been done in adults looking for medicines that might protect the heart during surgery, few studies have been conducted in neonates and young infants. The investigators are testing Dexrazoxane, which has proven to be cardio-protective in pediatric cancer patients, in the hope that it may lessen cardiac injury during and after congenital heart surgery, and thereby improve outcomes in the neonatal and young infant population. In order to accomplish this, the investigators must first determine how Dexrazoxane can be safely administered to young children with congenital heart disease.
The purpose of this study is to explore the feasibility of implementing nurse-led music therapy in a cohort of neonates admitted to the Cardiac Intensive Care Unit (CICU) post congenital heart surgery. In the proposed setting, the use of a standardized nurse-led music therapy protocol for post-operative neonates would build upon current successful nurse-led efforts to wean sedatives and opioid use for patients admitted to the CICU. The investigators believe data generated from this exploratory feasibility study may serve to further inform a larger study involving the use of music therapy in the cardiac intensive care.
This study will assess the safety and performance of the GORE PV1 Device for replacement of the pulmonary valve and reconstruction of the Right Ventricular Outflow Tract (RVOT).
The purpose of this study is to determine if intensive training of Non-Nutritive Suck (NNS) using contingent positive reinforcement with mother's voice can improve the feeding outcomes of infants with congenital heart defect (CHD) at high risk for oral motor problems.
This is a multi-center prospective, single-arm, non-randomized, pivotal study that will continue to access the feasibility of the Xeltis Bioabsorbable Pulmonary Valved Conduit in subjects requiring right ventricular outflow tract correction or reconstruction due to congenital heart malformations.
Infants requiring surgery in the neonatal period for complex congenital heart diseases are at risk for developmental problems. For infants with congenital heart diseases with admixture physiology and single ventricles, optimal circulation is associated with signs of adequate systemic perfusion and a systemic arterial oxygen saturation typically between 75% to 90%. Infants are often unable to withstand standardized developmental testing during early infancy due to medical fragility and sternal precautions after surgery. Evaluation of the quality of spontaneous movements and movement variability is a good alternative. The quality of general movements in early infancy is a valid predictor of neurological disorders in high risk infant groups and is assessed with short periods of video-recorded observations. This methodology has yet to be studied in infants with complex congenital heart disease that require surgery as neonates. For older infants, the Infant Motor Profile (IMP) is a promising tool to document developmental outcome.
Cardiopulmonary bypass and arrest of the heart during cardiac surgery are necessary to allow the surgeon to perform heart operations. However, these processes can cause injury to the heart which may worsen post-operative outcomes. In fact, the effects of these injuries may continue after surgery, and lead to a long-term decrease in heart function. Neonates and young infants are at particular risk for this occurrence. While much research has been done in adults looking for medicines that might protect the heart during surgery, few studies have been conducted in neonates and young infants. The investigators are testing Dexrazoxane, which has proven to be cardio-protective in pediatric cancer patients, in the hope that it may lessen cardiac injury during and after congenital heart surgery, and thereby improve outcomes in the neonatal and young infant population. In order to accomplish this, the investigators must first determine how Dexrazoxane can be safely administered to young children with congenital heart disease. Therefore, the investigators are performing a pilot study of 12 children to assess: 1. how Dexrazoxane at 3 different doses is metabolized in the body of a child age 0-6 months during and after congenital heart surgery, and 2. the safety of Dexrazoxane use in the neonatal and young infant population undergoing cardiac surgery.
Blood transfusion is nearly always needed during open heart surgery in children less than 15 kg (35 pounds). The purpose of the red blood cells in the blood is to deliver oxygen to the organs and tissues of the body. Stored blood undergoes some changes that may make it less effective in achieving this goal. The purpose of this study is to see if restoring important energy molecules (ATP and 2,3,DPG) in stored red blood cells before they are transfused, with a rejuvenating solution (Rejuvesol), offers any advantages to children over standard blood transfusion. This is a Food and Drug Administration (FDA) approved process that is described by the American Association of Blood Banks for prolonging blood storage but not used for everyday transfusions. The investigators want to use this process to improve blood transfused to children undergoing heart surgery. Although Rejuvesol has been previously approved by the FDA, it is not routinely used to prepare standard blood transfusions to children undergoing surgery. Use of Rejuvesol in this study is considered investigational. This is a pilot study and data will be collected for future protocol development.
This study evaluates maternal psychological distress and the impact of early palliative care team consultation on maternal anxiety and depression symptoms, coping, and quality of life/family functioning in the care of neonates born with single ventricle physiology. Half of the participants will receive early palliative care team consultation, while the other half will receive usual care (no or late palliative care intervention). The investigators hypothesize maternal stress, anxiety, and depression will be lower in the palliative care intervention group compared with the control group, and maternal coping mechanisms and perceived quality of life and family functioning will improve at the pre-discharge assessment.
Heart surgery in young children involves some risks. This study looks at a new type of monitor that may reduce these risks. Near Infrared Reflectance Spectroscopy (NIRS) aims to measure if enough blood reaches vital organs in the body. The investigators goal is to see if this shows problems developing sooner than usual. The investigators do not know at this time if they can improve the blood supply to the vital organs. The investigators main aim is to see which responses work the best. The NIRS monitor is approved by the U.S. Food and Drug Administration (FDA). The investigators will also follow the progress of recovery after surgery in the Cardiac Intensive Care Unit (CICU). This will find out if using the NIRS monitor improves the outcome for children.
The purpose of this study is to examine the differences in perceived health, psychosocial functioning, behavioral outcomes and quality of life of adults with congenital heart disease who are living in different areas of the world, and how these differences can be understood (e.g., differences in sense of coherence or illness perceptions).
Tranexamic acid is a relatively safe medicine that is used to help the body develop clots and slow down bleeding after large surgeries. While it has already been shown to work well in adults and older children, there is no information on whether it works, and how it works in children younger than 6 months old. The goal of our study is to try and understand whether and how tranexamic acid works in children younger than 6 months old who are having open heart surgery. We plan to study tranexamic acid by testing its effect when compared with a placebo. The investigators will use a method called randomization - which means patients who agree to be in the study will be entered into a computer. The computer will randomly assign them to either receive the medicine or the placebo. We will then compare effects on the 2 groups of patients. Our goal is to have 50 patients in each group, or 100 patients total. We will not know whether patients receive tranexamic acid or placebo until we review the data collected at the end of the study. Tranexamic acid is usually given to patients in the operating room during open heart surgery. During open heart surgery patients require cardio-pulmonary bypass which is a machine that replaces the function of the heart and lungs for a short period of time. This allows surgeons to do surgery on the heart itself without having to worry about it moving during the operation. The bypass machine has lots of tubes to carry the blood around it. When blood comes into contact with the tubing it has a tendency to clot. To prevent this patients are given a blood thinner called heparin. Although heparin prevents clotting in the bypass machine, it can also increase the risk of bleeding when the surgery is over. To reduce this risk patients are given another medicine at the completion of surgery called protamine to try and reverse the effect of the blood thinner, heparin. Even so bleeding remains a significant problem, especially for babies after open heart surgery. Being on the bypass machine and having a lot of suture (stitches) lines increase that risk. In addition, the bypass machine affects the function of platelets, the main component of the body's clotting system. We often have to replenish blood products after surgery to try and stop the bleeding. Some centers, including we , have used the medicine tranexamic acid to try and help with bleeding after surgery. There have been other studies that show it helps with fibrinolysis, which is another important part of the body's clotting system. However, that part of the clotting system is not well developed in infants and therefore likely does not play an important role in preventing bleeding in that age group. As such, it may be that tranexamic acid impacts platelet function as well, and it is that effect that helps decrease post-operative bleeding in infants younger than 6 months. This has not been previously studied. In order to study the effect that tranexamic acid has on platelets the investigators are proposing the investigators' research trial. The investigators plan to randomize patients to either receive tranexamic acid or placebo in the operating room as described above. The investigators will then draw a small amount of blood from each patient (total of approximately 1 tablespoon) and send it to a special lab for testing of platelet function. The lab test will help us understand whether the platelets function better when patients receive tranexamic acid instead of placebo. The investigators will also be monitoring other outcomes related to platelet function. These will include how much bleeding patients have after surgery when they are in the intensive care unit, and how much blood products they require to treat that bleeding. The investigators will also monitor labs that are checked routinely in all patients after open heart surgery. The investigators will also track how long it takes each patient to get off the ventilator and how long they spend in the ICU after surgery. All of this data will help us understand whether tranexamic acid makes a positive impact on outcomes after open heart surgery in infants less than 6 months old. The current standard of care is quite variable within our institution as well as at other institutions. Some anesthesiologists use tranexamic acid while others elect not to. There is no definitive guideline to its current use. The dosing differs from center to center, and there are some centers that do not use it at all. The investigators' hope is that the results of this study will help us understand the role tranexamic acid plays in preserving the function of platelets after open heart surgery in young infants, and whether that impact translates into improved outcomes for those patients. Based on the results of our research we hope to develop definitive guidelines for the use of tranexamic acid in the population of infants \<6 months old undergoing open heart surgery.
The purpose of this study is to look at whether the use of a simple technique before surgery, which involves inflating a blood pressure cuff on the infant's leg, can improve development of language, motor and thinking skills at 12 months of age. Some research has found that a brief shortage of blood supply to an organ (such as a leg) at level that does not cause harm may help the body to tolerate a longer and more severe shortage of blood (for example, during surgery).
The purpose of this study is to determine the safety and efficacy of citrate to provide anticoagulation of an ECMO circuit without patient anticoagulation. The standard method of providing ECMO circuit anticoagulation is the use of heparin which also anticoagulates the patient and increases the risk of patient bleeding.
This study is the extension of the CLARINET study \[NCT00396877 -EFC5314\] in neonates or infants with cyanotic congenital heart disease palliated with a systemic-to-pulmonary artery shunt. The primary objective was to assess the safety up to 18 months of age of the extended use of Clopidogrel 0.2 mg/kg/day in patients for whom the shunt was still in place at one year of age. The secondary objective was to assess the efficacy on the occurrence of shunt thrombosis requiring intervention or any death.
The staged surgical pathway to treat children with single ventricle heart defects culminates with the Fontan operation. In this procedure, systemic venous return is rerouted directly to the pulmonary arteries, which serves to separate the systemic and pulmonary circulations. Although mortality following the Fontan operation is now uncommon, early postoperative morbidity including prolonged postoperative chest tube drainage and hospitalization remains significant. The efficacy of empiric inotropic, vasodilator and neurohumoral-inhibitory therapies in the perioperative period is unknown and practice varies widely between centers. The investigators will propose a single-center, randomized, double-blind, phase II clinical trial in children undergoing Fontan surgery. The investigators plan to compare the effects of perioperative nesiritide, milrinone and placebo infusions on the early postoperative clinical course and neurohumoral profile. The investigators hypothesize that, when compared to the milrinone and placebo groups, the nesiritide group will have more days alive and out of the hospital within the first 30 days after surgery.
Critically ill children, including children undergoing heart surgery, commonly develop elevated blood glucose (also known as "blood sugar") levels during their illness, which can lead to poor health outcomes and an increased risk of death. This study will examine the effectiveness of maintaining normal blood glucose levels at decreasing infections and improving recovery in young children undergoing heart surgery.
Contemporary management of cyanotic congenital heart disease includes three stages of surgery. Incidence of shunt thrombosis and death between the two first stages of palliation remains important. The primary objective of the study is to evaluate the efficacy of Clopidogrel 0.2 mg/kg/day for the reduction of all cause mortality and shunt related morbidity in neonates or infants with cyanotic congenital heart disease palliated with a systemic-to-pulmonary artery shunt (e.g. modified Blalock Taussig Shunt \[BTS\]). The secondary objective was to assess the safety of Clopidogrel in the study population.
Each year in the United States, thousands of babies are born with heart defects. Women who take folic acid during pregnancy have a lower risk of giving birth to infants with heart defects, but the reason for this remains unknown. This study will examine the relationship between genes, nutrition, and the occurrence of heart defects in infants.
This clinical trial will determine the safety and effectiveness of intravenous L-citrulline in children undergoing cardiopulmonary bypass during heart surgery. Participants will be randomly assigned to either L-citrulline or a placebo (a substance that has no medicine in it). Citrulline is a protein building block in the body that can convert into another substance, nitric oxide (NO), which controls blood pressure in the lungs. Increased blood pressure in the lungs can be an important surgical problem; it may also lead to problems following surgery, such as severe high blood pressure in the lungs (pulmonary hypertension), increased time spent on a breathing machine, and a longer stay in the intensive care unit (ICU). The hypothesis of this study is that perioperative supplementation with intravenous citrulline will increase plasma citrulline, arginine and NO metabolites and prevent elevations in the postoperative PVT leading to a decrease in the duration of postoperative invasive mechanical ventilation.
The purpose of this study is to determine the effects of nesiritide on urine output and hemodynamics following cardiopulmonary bypass in infants. Safety and pharmacokinetic data will also be obtained.
This trial will evaluate the efficacy and safety of the modified Blalock-Taussig shunt (MBTS) compared to the right ventricle to pulmonary artery (RV-to-PA) shunt; compare the effect of the MBTS to that of the RV-to-PA shunt on the incidence of death or cardiac transplantation at 12 months post randomization; and compare the effect of the two shunts on intensive care unit (ICU) morbidity, unintended cardiovascular interventional procedures, right ventricular function, tricuspid valve regurgitation, pulmonary artery growth, and neurodevelopmental outcome.
This study will evaluate the efficacy and safety of angiotensin converting enzyme inhibition (ACE-I) therapy for the treatment of mitral regurgitation (MR).
This study will evaluate the efficacy and safety of administering an angiotensin converting enzyme inhibitor (ACE-I) (enalapril) to infants with a functional single ventricle. The study will also compare the effect of ACE-I therapy to placebo on somatic growth and compare the effect of ACE-I therapy to placebo on signs and symptoms of heart failure, neurodevelopmental and functional status, ventricular geometry, function, and atrioventricular (AV) valve regurgitation. In addition, the study will determine the relationship between genetic polymorphisms linked to ventricular hypertrophy (enlarged heart) and the response to ACE-I therapy and compare the incidence of adverse events in subjects treated with ACE-I with those in subjects treated with placebo.
This is a study to determine the safety and efficacy of liothyronine sodium/triiodothyronine (Triostat), a synthetic thyroid hormone, when given to infants with congenital heart disease during cardiopulmonary bypass surgery.