View clinical trials related to Congenital Heart Disease.
Filter by:The purpose of our multi-center cohort study is to build a large platform to follow up the peri-operative nutrition of children with congenital heart disease. And data will be collected pre and 1, 3, 6, 12 months post surgery including physical, laboratory, imaging examination and questionnaire. The primary outcome is nutrition status (measured as WAZ, WHZ and HAZ) and secondary outcomes were the biochemical index and quality of life.
This proposal addresses the major challenge of improving health outcomes for children with cancer and other complex conditions, for whom the effectiveness of outpatient care depends on care coordination across a diverse group of caregivers that includes parents, community support organizations and pediatric care providers. The investigators have developed GoalKeeper, a prototype system for supporting care coordination across multiple care providers. The primary aim of the clinical trial is to assess the potential for this new system, GoalKeeper, to improve meaningful use of goal-centered care plans in the care of children with cancer and other complex chronic conditions.
The erector spinae plane block is a novel regional anesthetic technique that allows for analgesia of the thorax and abdomen with a peripheral nerve block. The goals of this study are to determine if bilateral erector spinae plane blocks (ESPB) after sternotomy for congenital heart repair in high risk children and adults can decrease outcomes such as duration of postoperative mechanical ventilation (MV), perioperative opioid consumption, days in the intensive care unit (ICU) and length of stay (LOS).
Conventional CMR is based on breath-hold 2D cine image acquisitions which are sequentially acquired in different imaging planes. The necessity of precisely planning and then acquiring multiple 2D imaging planes during breath-hold is relatively inefficient and leads to CMR exam times of ≤60 minutes. However, some patients are too ill or young to hold their breath. Furthermore, 2D images sometimes fail to provide a complete picture of complex 3D anatomy of patients with complex morphology. To address these limitations, we have recently developed a 3D cine (3 spatial dimensions plus time) CMR technique. Rather than acquiring 2D cine images in multiple orientations during breath-hold, this approach allows one to acquire a free-breathing 3D block of data for each phase of cardiac cycle that can be reformatted offline into the desired views without adding to the exam time. This added efficiency should lead to a reduction in CMR exam time, increasing patient comfort, and making CMR exam easy and available for all. In addition, the 3D nature of the data may yield more complete information about the anatomy and physiology. In this proposal, we will examine the agreement between the 2D cine and 3D cine CMR techniques with regard to left and right ventricular volumes and systemic and pulmonary blood flow circulation. The internal consistency of the measurements between the 2 techniques will be also investigated. This study will focus on children because they may benefit the most from the short, improved efficiency, and free-breathing CMR exams.
Newborn babies and children with congenital heart defects who need heart surgery need to be placed on the heart-lung machine for heart surgery. In order to use the heart-lung machine, the investigators have to use blood and other fluids to fill the tubing. During the operation, ultrafiltration is carried out as standard of care to remove extra fluid. Modified ultrafiltration is also performed after surgery. In this study, the investigators are looking to use the filter additionally before surgery. Using the pre bypass filtration before the subject is placed on the heart-lung machine will allow the investigators to better normalize electrolytes in the blood/fluid mixture used in the heart lung machine. This technique is called pre-bypass ultrafiltration, or PBUF (pronounced "P" Buff). The investigators are conducting a study to see if using PBUF to better normalize electrolytes in the blood will make a difference. The investigators have been adding fluids to prime the heart-lung machine in two different ways. The investigators believe both methods are safe and acceptable but hypothesize that there may be subtle differences in electrolytes and fluid status when one technique is used as opposed to the other. The investigators believe that neither technique introduces risk since both are currently used in practice. The standard method adds blood to the heart-lung machine. The alternate method adds blood to the heart-lung machine and then additional fluid is added and removed to more normalize the electrolytes. The investigators plan to randomized subjects undergoing heart surgery to receive the standard priming method versus PBUF to determine if there is any difference in outcomes. Laboratory and clinical data collected as part of clinical care will be used to determine difference sin outcomes. There will be no additional blood taken for this study. There are no known risks to PBUF. The benefits include helping investigators determine if PBUF does or does not make a difference to how subjects recover after surgery. The investigators believe that providing more normal blood values will either improve the subjects' outcome or have no benefit. The investigators do not anticipate increased risks. Given COVID -19 restrictions, the study is on hold.
This study looks to develop a multi-scale computational model of Pulmonary Hypertension, this clinical model will be calibrated using longitudinal, retrospectively and prospectively acquired human clinical data.
This study is a prospective, open-label, multi-site, growth, safety and tolerance study to evaluate a NF (New Formula). A minimum of 45 evaluable infants with confirmed growth failure will be enrolled. Growth failure for 30 infants will be due to congenital heart disease and 15 infants due to other organic or non-organic causes. Study infants (in-patient or living with parents/ caregivers at home) will be fed the NF for a period of up through 16 weeks or until the time the infant subject meets criteria for switching to a lower calorie density formula, relative to baseline in infants with growth failure. Weight, height, head circumference and mid upper arm circumference will be measured regularly throughout the study. NF and other food intake, tolerance and stool diaries will be completed regularly. Serious adverse and adverse events will be monitored throughout the study. Infants will be evaluated, at each study visit, for criteria to switch to a lower calorie density formula. The primary objective is to improve weight-for-age z score relative to baseline. The secondary objectives are to improve weight-for-length, length-for-age, head circumference-for-age, mid upper arm circumference-for-age, weight velocity and length velocity z scores relative to baseline.
The aim of the study is to evaluate the feasibility and safety and efficacy of collecting and infusing autologous umbilical cord blood (UCB) in newborn infants with hypoplastic left heart syndrome (HLHS) and transposition of great arteries (TGA). Rationale: Neonates with HLHS and TGA have significant brain injury as demonstrated by peri-surgical MRI. Moreover, there a substantial tendency to suffer from chronic cardiac condition as low cardiac output state and valvular insufficiency. Treatment of neonates after hypoxic ischemic injury at birth with autologous UCB was shown to safe and improved developmental outcome. The effect of UCB is most likely achieved by reduction of free radicals injury and pro-inflammatory and apoptotic process. Hypothesis: Treatment with UCB immediately after the first cardiac surgey, with in the first week life will reduce the brain injury demonstrated by MRI and reduce the choronic cardiac problems
Patent ductus arteriosus (PDA) is a common problem in the neonatal intensive care unit and can be secondary to prematurity or congenital heart disease (CHD). PDA is the most common cardiovascular abnormality in preterm infants, and is seen in 55% of infants born at 28 weeks, and 1000 grams or less. In addition to producing heart failure and prolonged respiratory distress or ventilator dependence, PDA has been implicated in development of broncho-pulmonary dysplasia, interventricular hemorrhage, cerebral ischemia, and necrotizing enterocolitis (NEC). In an Israeli population study 5.6% of all very low birth weight infants (VLBW) were diagnosed with NEC, and 9.4% of VLBW infants with PDA were found to have NEC. In a retrospective analysis of neonates with CHD exposed to Prostaglandin E found that the odds of developing NEC increased in infants with single ventricle physiology, especially hypoplastic left heart syndrome. The proposed pathophysiological explanation of NEC and PDA is a result of "diastolic steal" where blood flows in reverse from the mesenteric arteries back into the aorta leading to compromised diastolic blood flow and intestinal hypo-perfusion. Prior studies have demonstrated that infants with a hemodynamically significant PDA have decreased diastolic flow velocity of the mesenteric and renal arteries when measured by Doppler ultrasound, and an attenuated intestinal blood flow response to feedings in the post prandial period compared to infants without PDA. Near Infrared Spectroscopy (NIRS) has also been used to assess regional oxygen saturations (rSO2) in tissues such as the brain, kidney and mesentery in premature infants with PDA. These studies demonstrated lower baseline oxygenation of these tissues in infants with hemodynamically significant PDA. These prior NIRS studies evaluated babies with a median gestational age at the time of study of 10 days or less. It is unknown if this alteration in saturations will persist in extubated neonates with PDA at 12 or more days of life on full enteral feedings. In the present study the investigators hypothesize that infants with a PDA, whether secondary to prematurity or ductal dependent CHD, will have decreased splanchnic and renal perfusion and rSO2 renal/splanchnic measurements will be decreased during times of increased metabolic demand such as enteral gavage feeding. To test this hypothesis the investigators have designed a prospective observational study utilizing NIRS to record regional saturations at baseline, during feedings, and after feedings for 48 hours.
Conventionnal cadiac magnetic resonance (CMR) is the reference to assess changes in right heart flow and pulmonary artery hemodynamics in patients with repaired Tetralogy of Fallot. 4D Flow CMR Imaging is a new imaging modality able to assess all of these parameters faster (8 min vs 30 min) and more comfortably. The aim of this study is to compare conventionnal CMR and 4D Flow CMR for the assessment of these parameters (ventricular volume, ventricular systolic function, and regurgitation of the pulmonary pathway).