Study of Adaptation of the Right Ventricle to Systemic Afterload
Congenital Heart Disease With Systemic Right Ventriclethe first purpose of the study is to determine the adaptative mechanisms of right ventricle (RV) to systemic afterload, and the mechanisms of RV failure, in patients with congenital heart disease and subaortic RV, using cardiac magnetic resonance imaging (CMR).The mechanisms are evaluated by measures of RV remodelling and RV wall stress using CMR. Second objectives are to evaluate these mechanisms using echography, arterial properties study and neurohormonal levels
Multi-micronutrient Supplementation During Peri-conception and Congenital Heart Disease
Congenital Heart DiseaseThe purpose of this study is to determine whether daily oral supplements of vitamin B complex along with folic acid or supplements of iron plus folic acid given to women during peri-conception can reduce the risk of congenital heart disease when compared with folic acid alone.
Health-economic Impact of Pulse Oximetry Systematic Screening of Critical Congenital Heart Disease...
Critical Congenital Heart DiseasePersistant hypoxemia in the newborn confers, even isolated, an abnormal clinical situation, that needs to be addressed for an adequate diagnosis and an optimal treatment. If during the first hours of life, hypoxemia is frequent and often transient, beyond that, it is necessary to search the various etiological conditions such as a critical congenital heart disease (CCHD) or a non cardiac affection (sepsis, anemia, respiratory disease). Newborn pulse oximetry screening identifies babies with critical congenital heart disease (CCHD) based on the rational that they frequently have a degree of hypoxemia that may be clinically undetectable. CCHDs are life-threatening forms of congenital heart disease (CHD) occuring in 2-3/1000 live births but accounting for 3%-7.5% of infant deaths. Early detection is beneficial because of acute collapse, if not resulting in death, is associated with a worse surgical and neurodevelopmental outcome. Currently, screening for CCHD involves antenatal ultrasound scanning and post-natal physical examination. Although antenatal detection rates have improved over recent years and can be as high as 70%-80% in some centers, this is not consistent. Indeed, in "Nouvelle Aquitaine" overall <50% of CCHDs are detected before birth. In addition, up to a third of infants with CCHD may be missed on post-natal examination. Pulse oximetry screening can help to close the "diagnostic gap' that is, increase the detection of babies who slip through the current screening net. Several large European studies and a subsequent meta-analysis have shown that pulse oximetry screening is a highly specific (99.9%) and moderately sensitive (76.5%) test which increases CCHD detection rates. The high specificity results in a low false-positive rate 0.05% to 0.5%. But those babies with a Positive Test, if they may not have CCHD, they may be diagnosed with other causes of hypoxemia (congenital pneumonia, sepsis, persistent pulmonary hypertension,...). As with CCHD, delayed recognition of these conditions can result in postnatal collapse and significant morbidity and mortality. It is also more useful to consider these conditions as secondary targets of screening and to remember they constitute 30%-70% of false positives. In 2011, the US Health and Human Services Secretary recommended that pulse oximetry screening for CCHD be added to the Recommended Uniform Screening Panel. In Europe, implementation is advanced in such countries as North European Countries, and Switzerland. There isn't yet any European guidance. In France, the implementation is limited to local and transient experiments. The feasibility, usefulness and cost-effectiveness of routine pulse oximetry screening have not been evaluated so far. The French setting has two specificities : 1/ the antenatal detection rate is considered to be rather high. 2/ in contrast to a lot of other European countries, early discharge from the maternity ward before 48 hours of life is not common, decreasing the risk of discharging a baby with undiagnosed CCHD, but not saving babies from collapse. - The Investigators hypothesis is that routine pulse oximetry screening in asymptomatic newborns would allow to reduce the incidence of complications related to CCHDs as well as those related to non cardiac pathologies for a reasonable cost for the French Health Care System.
Remote Preconditioning and Myocardial Protection
Congenital Heart DiseaseRemote ischemic preconditioning (RIPC) of the myocardium by limb ischemia/reperfusion may mitigate cardiac damage, but its interaction with the anesthetic regimen is unknown.
Intravenous L-Citrulline to Treat Children Undergoing Heart Bypass Surgery
Heart DefectsCongenital2 moreThis 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.
Propofol vs Sevoflurane in Cyanotic Congenital Heart Disease
Cyanotic Congenital Heart DiseasePediatric HDThe stress response to surgery compromises a series of humoral, metabolic, or cellular reactions. Cardiac surgery with use of cardiopulmonary bypass (CPB) is a major activator of the systemic inflammatory response (SIRS). Inflammation, resulting in neutrophil activation, plays a central role in the production of reactive oxygen species (ROS). Inflammatory and oxidative reactions may play a role in the more frequent observation of postoperative ventricular dysfunction in patients with cyanotic congenital heart disease (CHD) undergoing surgery. The aim of this study is to compare the anti-inflammatory and anti-oxidant effects of propofol and sevoflurane in children with cyanotic CHD undergoing open heart surgery with CPB.
Pre-operative Prophylaxis With Vancomycin and Cefazolin in Pediatric Cardiovascular Surgery Patients...
Congenital Heart DiseasesAortic Valve DisorderThe investigators hope to learn 1) if the addition of prophylaxis with vancomycin will decrease the rate of cefazolin non-susceptible surgical site infections (SSI), in high risk population 2) to develop better understanding of vancomycin and cefazolin pharmacokinetics in children undergoing cardiopulmonary bypass (CPB) 3) to assess the barriers to vancomycin dosing peri-operatively 4) to assess side effects and risks associated with peri-operative vancomycin administration. This will allow us to improve patient care by better understanding the benefits or the risks of peri-operative vancomycin administration and potentially decrease cefazolin-resistant surgical site infections. In addition, this study gives us the opportunity to evaluate cefazolin and vancomycin pharmacokinetics (pK) on children on CPB. The investigators will take blood samples from 20 patients. In 10 patients the investigators will do Cefazolin pK analysis and in the other 10 the investigators will do pK Vancomycin analysis. For the remainder of 292 patients, only prospective chart review will be done to determine the incidence of SSIs. This data will be compared with 936 controls who received only Cefazolin pre-operatively as prophylaxis for SSI's. --------------------------------------------------------------------------------
Preventing Brain Injury in Infants With Congenital Heart Disease
Cyanotic Congenital Heart DiseaseNewborn babies with congenital heart disease often require surgery in the first month of life. The risks of brain damage from congenital heart disease and from the various corrective surgeries are high because of poor levels of oxygen reaching the brain. Topiramate is an anti-convulsant medication that protects brain cells from damage due to low amounts of oxygen in animal studies. The investigators hypothesize that giving topiramate to babies with congenital heart disease before and after surgery will decrease the amount of brain damage caused by the heart disease and/or the surgery to correct the heart disease.
Fontan Patients: Comprehensive Evaluation of Pulmonary Circulation and Ventricular Function
Congenital Heart DiseaseIn patients with one anatomical or functional ventricular chamber, which encompasses a spectrum of rare and complex congenital cardiac malformations, a staged surgical approach in view of an ultimate Fontan operation has become the procedure of choice. Especially in the earlier era, perioperative mortality was the leading cause of death. However, many patients have a long and high-quality life, continuously improved by a better understanding of Fontan hemodynamics and the refinement of the surgical procedures. Nevertheless, the prospect of eventual failure of the Fontan circulation remains a major concern. More specifically, evaluation of the pulmonary circulation becomes particularly important as the failing Fontan circulation has become a common indication for cardiac transplantation. Although essential, especially in the preoperative setting, a comprehensive evaluation of the pulmonary circulation remains difficult in this patient population Our global hypothesis is that the absence of pulsatile pulmonary flow may lead to the development of pulmonary vascular lesions after the Fontan operation and that - together the absence of a subpulmonary ventricle for pressure generation - this increasing afterload will result in systemic ventricular underfilling and will eventually lead to a failing Fontan circulation.
Does Ketamine Attenuate Depression of Respiratory and Cardiac Functions
Congenital Heart DiseaseSedated for Cardiac CatheterizationNormal cardiac and respiratory functions should be maintained during pediatric cardiac catheterization. Propofol has become a popular choice for sedation in children, however, it depresses cardiac and respiratory functions. Some investigators reported that ketamine attenuates its depressant effect, but it remains unclear whether ketamine reduces cardiac and respiratory depression caused by propofol in pediatric cardiac catheterization.