View clinical trials related to Congenital Heart Disease.
Filter by:The study aims to test whether platelet transfusion or fibrinogen concentrate is the most effective treatment of intraoperative bleeding, when performing open heart surgery with cardiopulmonary bypass on children with congenital heart defects.
The study done to identify the relation between the presence of abnormal clinical cardiac findings and the echocardiographic findings in newborn infants.
Infants with congenital heart disease (CHD) are usually born with a normal weight but develop malnutrition over time, and about 20-50% of these children are usually malnourished. Malnutrition in these patients is multifactorial. To compensate for the increased need for infants and children with CHD, an increase in their caloric intake has been suggested. However, these patients may not be able to receive enough to meet the increased needs and catch-up growth. One of the suggested solutions in these patients to compensate for inadequate food intake is to increase the caloric density of milk or formula. For this purpose, the use of special formulas with higher calorie density or enrichment of normal formula or breast milk using special enrichment formula could be suggested. In the present study, the effect of increasing calorie intake by increasing the concentration of normal formula in comparison with formula with standard concentration on weight gain and other anthropometric indices of CHD patients with malnutrition will be compared.
Beyond EV-B, there are clinical observations to implicate other viruses in birth defects, including CHD. Since the Rubella epidemic of 1960s', however, viruses have received little attention and certainly no comprehensive study, especially using next generation sequencing (NGS), has been undertaken in this context. The current pandemic as well as those caused by Zika, influenza, Ebola and Lassa Fever (among many) have shown pregnant women and their baby are at high risk. Therefore, an open-minded approach is warranted when considering the role of maternal viral infections in CHD. Even less is known about maternal immune response, such as antibody production, to these viruses. The investigator's goal is to answer the above gaps in knowledge. The investigators propose to do that using two different approaches; one retrospective (analysis of samples in two existing, large biorepositories) and the other prospective. The investigator's have created a multi-disciplinary team to bring together the needed expertise from individuals who have overlapping and vested interest in this project. The investigator's specific aim is to examine the diversity of the gut virome in non-pregnant and pregnant women with and without diabetes, with special emphasis on known cardiotropic viruses (those with tropism for cardiac tissues). This study is seen by the investigator's as the first step prior to a larger prospective multi-institutional study to specifically assess the linkage between the maternal virome and CHD pathogenesis.
In this research study we want to learn more about abnormal heart rhythm after cardiac surgery in children. These abnormal heart rhythms, also called arrhythmias, may occur due to several reasons after cardiac surgery. They can be due to abnormal electrical pathway or an irritable area of the heart that stimulates abnormal impulses. Regardless of the cause, arrhythmias after cardiac surgery can be a problem, extending the hospital stay, requiring additional medications and even leading to cardiac arrest. Current practice is to monitor for arrhythmias after cardiac surgery, and to treat them if they occur. With this research, we want to investigate whether we can identify patients who will develop arrhythmia, and treat them before they occur.
Congenital heart disease (CHD) is the leading cause of birth defects, with an incidence of 0.8%. Since the 1980s, France has been a pioneer in neonatal CHD surgery (Pr. Fontan, Pr. Lecomte, Pr. Serraf, etc.), in prenatal diagnosis, and in interventional cardiac catheterization. Actually, first children operated for complex CHD have reached adulthood and a new epidemiology of CHD is emerging. Currently, one of the public health challenges is the need to maintain appropriate follow-up and to avoid disruption of care during the transition from adolescence to adulthood. Thus, the national health authorities (DGOS) recently certified a national network of expert centers for complex CHD (M3C). In addition, under the leadership of the French Society of Cardiology, the sub-specialty of Pediatric and Congenital Cardiology has been recognized. However, while North American and North European countries have published their updated data on the main indicators of CHD morbidity and mortality, no study has reported epidemiology of CHD in France. Currently, available data are approximate, estimating that 200,000 children and 250,000 adults would be living in France with a CHD. Nevertheless, no information is available on hospitalizations, type of CHD, their follow-up, possible disruption in care, and morbidity and mortality in patients with CHD in France. This epidemiological study will use the national health insurance hospital database to answer these questions.
The purpose of this study is to evaluate the feasibility and preliminary efficacy of the Promoting Resilience in Stress Management (PRISM) intervention in patients with adult congenital heart disease.
This study aims to study the correlation between biomarkers of myocardial fibrosis (extracellular volume fraction calculated by cardiac magnetic resonance imaging (MRI) (T1-mapping) and levels of molecular biomarkers of fibrosis) and adverse events in a population of patients with repaired tetralogy of Fallot.
This is a Phase III randomized controlled trial of a passive ROM exercise program that will be performed in infants with HLHS and other single right ventricle anomalies following the Norwood procedure at PHN and Auxiliary Centers.
This study will investigate the different tidal volume (Vt) strategies during a cardiac catheterization procedure to determine whether or not low or high Vt have an impact on cardiac output. Research question: While maintaining the same minute ventilation/PaCO2, does higher Vt (10 cc/kg)/lower rate vs. lower Vt (6 cc/kg)/higher rate (maintaining consistent PEEP) result in improved cardiac output?