View clinical trials related to Congenital Heart Disease.
Filter by:Congenital heart disease (CHD) is the leading cause of birth defects, with an incidence of 0.8%. Among CHD, univentricular heart disease or "single ventricle" is rare and complex. As a result of the improved patient care over the last decades, the number of children and adults with single ventricle is increasing significantly. Today, the main challenge is to ensure an optimal follow-up of these new patients in order to improve their life expenctancy as well as their quality of life (QoL). Currently, echocardiography and cardiopulmonary exercice test (CPET) are central in management of patients with single ventricle as part of good clinical practice guidelines. Single ventricle volumes and function are very difficult to asses with conventional echocardiography because of their complex geometry. Indeed, single ventricle size and morphology vary depending on the patient characteristics and on the initial CHD (before surgical repair). That's why conventional 2D echocardiographic parameters are not reliable for single ventricle assessment. Magnetic resonance imaging (MRI) is more effective in assessing single ventricle volumes and function. Nevertheless, MRI is not universally available, is not practical in many situations, is expensive, and is a relative contraindication in patients with pacemakers. Over the past decade, the use of the 3D echocardiography has increased. This is an available tool that can assess ventricular function and volumes in few seconds. Recent studies shown a good correlation between 3D echocardiography and MRI for assessment of ventricular volumes and function in patient with CHD and especially in those with single ventricle. Moreover, according to some authors, CPET parameters are strongly correlated with risk of hospitalization, risk of death, physical activity and quality of life, especially in patients with single ventricle. To date, there is no study performed about the relationship between 3D echocardiography and CPET parameters in patients with single ventricle.
The investigators conducted this retrospective study in a large single center with an annual birth of more than 20,000 newborns, from January 1, 2018 to December 31, 2019, to confirm the applicability and accuracy of pulse oximetry (POX) combined cardio-auscultation to screen congenital heart disease for neonates.
Postoperative bleeding in cardiac surgery is a frequent complication, and cardiac surgery utilizes 15-20% of the national blood supply. Packed red blood cells (pRBCs) are associated with worse short and long term outcomes. For each unit transfused, there is an additive risk of mortality (death) and cardiac adverse events. Despite current guidelines and numerous approaches to bleeding reduction, >50% of the patients undergoing cardiac surgery receive transfusions. Acute normovolemic hemodilution (ANH), a blood conservation technique that removes whole blood from a patient immediately prior to surgery, could be a valuable method to reduce transfusion in complex cardiac surgery. At the University of California, Los Angeles (UCLA), ANH is routinely utilized in patients who refuse allogenic blood transfusions such as Jehovah's Witnesses. ANH has been shown to be safe with minimal risk to patients. ANH has been studied in simple cardiac surgery, such as coronary artery bypass grafting, however it has not been studied in complex cardiac surgery, such as aortic surgery and adult congenital heart disease. ANH has been demonstrated to reduce pRBC transfusion in lower risk cardiac surgery without any significant complications. Complex heart surgery utilizes more blood products. This study could identify the benefits of ANH in a higher risk surgical group.
The purpose of the proposed study is to determine the safety of enhanced external counterpulsation (EECP), a system for compressing the blood vessels in the legs in synchrony with an individual's cardiac rhythm, in clinically well, adult Fontan patients, to document the acute hemodynamic and myocardial effects of EECP on the Fontan circulation, and to demonstrate acute changes in endothelial function after one hour of the procedure.
In adolescents with congenital heart disease physical activity level is reduced which is why promotion to a more active lifestyle with an age-appropriate and modern intervention is needed. In healthy subjects digital health nudging was shown to increase physical activity. However, in adolescents with congenital heart disease such studies have not been conducted yet. In this RCT participants receive daily, short smartphone messages with the primary purpose to increase daily physical activity, which is monitored with a "Garmin vivofit jr." wearable.
This is an international, cross-sectional and descriptive study that aims to investigate differences in patient-reported outcome measures (PROMs) and patient-reported experience measures (PREMs) and that aims to explore the profile and healthcare needs of adults with congenital heart diseases.
The SPECKLE- KIDNEY-PED is a multicentre observational controlled trial aiming to evaluate the 2D-Speckle tracking in a population of 85 patients aged from 6 to 17 years old with a chronic renal disease and to compare the results to those of 85 age and gender-matched healthy subjects. The secondary objective is to assess the conventional echocardiographic parameters and the level of exercice capacity.
PRISMIII(Pediatric Risk of Mortality III), PIM2(Pediatric Index of Mortality 2) and PELOD(Pediatric Logistic Organ Dysfunction) are frequently used for predicting mortality and morbidity in general pediatric ICUs(Intensive Care Units). However, the effectiveness of these scoring sistems in a specific group patients undergoing congenital heart surgery(CHS) is unknown. In this study, the investigators aimed primarily to evaluate the success of these scoring systems in predicting mortality and morbiditiy in this specific group and to compare the scoring systems with eachother, and secondly to evaluate the relationship of these systems with the STAT(STS-EACTS CHS Mortality Score) category
This study aims to analyze outcomes of patients with systemic right ventricle (SRV) implanted with Cardiac Resynchronization Therapy (CRT) systems and to compare the impact of CRT in SRV patients with other congenital heart diseases (CHD).
With an incidence of 0.8 %, congenital heart disease (CHD) is the leading cause of congenital anomalies at birth. Medical advances in CHD have transferred the mortality from childhood to adulthood and today there are more adults with CHD than children. After focusing on survival, more attention is being given to health-related quality of life and secondary prevention in this population where warning signals are launched on the risk of sedentary lifestyle, obesity, cardiovascular risk 1. The cardiopulmonary exercise test (CPET), which is a non-invasive and dynamic examination, is becoming the gold standard to the follow-up 2 of these patients by allowing to quantify disease severity, to evaluate the quality of life 3, to give important prognostic information on functional capacity and haemodynamic response 4, to facilitate a safe decision-making when prescribing exercise programmes and sport participation for these children with CHD 5. In this context, in a cross-sectional study from 2010 to 2015, the investigators evaluated the cardiopulmonary fitness of children with CHD by comparing them with healthy children 6. In this study, 496 children with CHD compared to 302 healthy children were included. It showed that maximum oxygen uptake (VO2max) and ventilatory anaerobic threshold (VAT) are decreased in CHD children compared to healthy children, clinical determinants of decreased VO2max have been defined for CHD children. This study was proposed, despite the cross-sectional nature, an average decrease in annual VO2max (0,84 ml/kg/min per year) to make pediatric and congenital cardiologist aware of the need to a regular follow up for these patients. In this new study, the main objective was to know the real evolution of VO2max in these patients from this same cohort, with a longitudinal design, by collecting a new CPET carried out between 2015 and 2020 and compared these results to healthy pediatric population. The secondary objectives were: to know the evolution of the VAT, to define the clinical determinants in relation to the annual decrease of the VO2max. And to describe the population lost to follow-up in this retrospective study which represents current practice.