View clinical trials related to Congenital Heart Disease.
Filter by:- To predict vulnerable patients for aortic root dilatation in TOF patients using CT as a reliable imaging modality, thus aiding early intervention, and identifying those who will require strict follow-up. - To assess the prevalence of TOF patients who developed aortic root dilatation, and those who were complicated with dissection, AR, and aneurysm, through collecting data from a large center (Aswan Heart Centre). - To investigate the relationship between age at repair and the diameter of aortic root.
The goal of this multicenter observational clinical trial is to evaluate the safety and effectiveness of the Cardiohelp System for VA-ECMO in children with cardiac failure. The main question[s] it aims to answer are: - What is the safety and effectiveness of the Cardiohelp device for pediatric ECMO? - What are the optimal performance specifications of the Cardiohelp device in children? Should the Cardiohelp device be FDA-cleared for children? Children who are receiving the Cardiohelp device will be approached and consented to participate if interested. Participants will undergo a standardized data collection to estimate survival to 30 days and the prevalence of serious adverse events like stroke, bleeding, and hemolysis. Outcomes will be compared to performance goals (PG) derived from the ECMO literature. Funding Source -- FDA OOPD (Office of Orphan Product Development)
IntelliStent is intended to achieve reduction of pulmonary hypertension, improvements in symptoms and quality of life in pediatric, adolescent and adult patients with congenital heart disease associated pulmonary arterial hypertension or left ventricular dilated cardiomyopathy.
Patient with Tetralogy of Fallot need live-long surveillance after initial operative correction (rTOF). MRI is an established and important component of the standardized follow-up in this patient population. A new score will be used to summarize the multitude of MRI-based parameters into a single number. Individual modificators are assigned to the components of the score. The value of each modificatory will be determined as a result of this feasibility trial. This new compound score is designed to anticipate any deterioration of cardiac function, arrhythmias or sudden cardiac death. This feasibility study is the first step to establish this score and find initial values for the modifies that are assigned to the more than 40 biomarkers from MRI, clinical examinations and serum parameters that are included in this new score.
Congenital heart disease (CHD) defined as anatomic malformation of the heart and great vessels which occurs during intrauterine development irrespective of the age of presentation(1) It is classified into acyanotic and cyanotic depending upon whether the patients clinically exhibit cyanosis(2) . It is the most common human developmental anomaly with a reported prevalence of between 4 to 10 per 1000 live birth (3-6). The variety and severity of clinical presentation depend on the cardiac structures involved and their functional impact (7). Previous studies have found that, although birth weight for gestational age is usually normal in patients with congenital heart disease, young children often present with impaired growth parameters (8,9) The underlying causes of this failure to thrive may be multifactorial including innate growth potential, severity of cardiac underlying disease, increased energy requirements ,decreased nutritional intake, malabsorption and poor utilization of absorbed nutrients .these factor are particularly common and sever in low and middle income countries (11) Several studies suggest that the failure to thrive is associated with poorer cognitive development, learning disabilities, and long term behavioral problems more recently Corbett et al (12) detected a significant association between the severity of growth deficiency and IQ ,whereas Raynor and Rudolf (13) found that 55% of the infants who were failing to thrive exhibited developmental delay .In addition , A study by Reif et al (14) reported that children with a history of failure to thrive were found to have more learning difficulties and evidenced developmental delay at follow up 5 years after the initial presentation(15). Achieving survival is not the only target of clinicians for these patients, appropriate growth, development and improved quality of life are also very important. The management of children with congenital heart disease require multidisciplinary approach,in which the nutritional aspect plays an important role ,an adequate caloric intake, in fact this improve the out come of these patients.(7) This study will asses the nutritional status for patients with congenital heart disease Who are admitted at assiut university hospital children and adopting a protocol for nutritional support for them.
This study has the goal to determine the best method of respiratory support following extubation after cardiac surgery (CS). After cardiac surgery for Congenital Heart Disease (CHD), patients remain intubated until the cardiac team determines it is safe for the patient to undergo a trial of extubation. Two common methods of respiratory support following extubation are High Flow Nasal Cannula (HFNC) and Non Invasive Positive Pressure Ventilation (NIPPV). There is currently a gap in data comparing High Flow Nasal Cannula and Non-Invasive Positive Pressure Ventilation in infants (age 0-1) in regard to extubation failure and overall outcomes. This study will monitor the health outcomes of 200 infants (0 - 1 year) with CHD following cardiac surgery in the Cardiac Intensive Care Unit (CICU) at Children's Healthcare of Atlanta (CHOA). This will be done by assigning the respiratory support method each child will receive following extubation after cardiac surgery. Health outcomes will be monitored until discharge or until the second instance of extubation failure. Both study arms are standard-of-care respiratory support methods in the CHOA CICU. The investigators aim to determine which of these two methods has fewer risk factors when used with infants.
Introduction and Objective: In recent years, 3D (three-dimensional) modeling has been added to traditional and effective diagnostic methods such as Computed Tomography (CT), Magnetic Resonance Imaging (MRI), and Echocardiography. The purpose of this study is to determine the effectiveness of models created from patients' own radiological images using 3D printing technology in the clinical setting to simulate surgery in the preoperative period and provide preoperative parental education to improve family quality of life and positively influence patient outcomes. Methods: The study is a two-group pretest-posttest randomized controlled study. The children who come to the outpatient clinic examination in a private hospital and who are subjected to Computed Tomography (CT) examination for diagnostic procedures will be modeled in the experimental group, pre-tests will be applied, and the model will be 3D printed after it is approved by the radiologist who is among the researchers. The sample size is 15 experimental group and 15 control group. After the radiologist's approval, surgical simulation and preoperative education will be applied to the experimental group. The control group will receive the same parent education as the standard model. Both groups will complete the Sociodemographic Information Form, Surgical Simulation Evaluation Form - Part I, and Pediatric Quality of Life Inventory (PedsQL) Family Impacts Module one week prior to hospitalization. Surgical simulation and preoperative education will be completed on the same day. On postoperative day 0, only the Surgical Simulation Evaluation Form - Part II will be applied and on postoperative day 15, the Surgical Simulation Evaluation Form - Part II and the Pediatric Quality of Life Inventory (PedsQL) Family Impacts Module will be applied to both groups as a posttest. Pilot Study and Results: Modeling and 3D printing studies were conducted to carry out the study. A total of four diagnosed and treated patients were retrospectively analyzed. An intracardiac anomaly was detected in the patient data taken for the first model. It was decided to model the extracardiac structures since the inside of the heart was filled with blood, and the blood could not be ruled out as a solid structure. Finally, aortic coarctation was modeled clearly from the images taken and completed.
The goal of this study is to evaluate the impact of a clinical decision support system (CDSS) in children receiving mechanical ventilation (MV) after surgery for congenital heart disease (CHD). The main question it aims to answer is: -What is the impact of a CDSS designed to facilitate weaning and discontinuation of MV on the duration of MV in post-operative congenital cardiac surgery patients? Participants will be identified as eligible to initiate weaning from mechanical ventilation. Providers will decide whether or not to initiate weaning based on recommendations provided by the CDSS. Researchers will compare patients exposed to the CDSS with a historical cohort to see if the CDSS facilitated a decrease in MV duration.
Remarkable progress in paediatric cardiology and surgery have led to the substantial increase of congenital heart disease (CHD) survivors. Long-term outcomes in rare and complex CHD have become a critical priority as three major sources of morbidity have been identified in this population: neurodevelopmental sequelae, mental health issues and reduced exercise capacity. These challenges adversely affect their quality of life and constitute a major public health issue. We seek to evaluate the efficacy of the first integrative and holistic program in Neuro-Cardiac Health associating physical and psychological rehabilitation for children with rare CHD compared to the standard of care. Children randomly assigned to the intervention will undergo a 12-week neuro-cardiac intervention including home-based adaptive physical exercise, telehealth parent and child psycho-education and child computerized cognitive training, as well in-person individual sessions of intervention reinforcement. Parents will be actively involved and will receive personalized feedback and educational resources. Children assigned to the control group will receive the standard of care in congenital cardiology. Post-intervention effects will be measured after 12-months on several outcomes including health-related quality of life (HRQoL), trained and untrained cognitive skills, mental health outcomes and cardiovascular/physical variables.
The treatment of adult patients with congenital heart disease (ACHD) and heart failure (HF) represents a great challenge since, to date, there is no standardized guideline for this specific population. Although new treatments for HF have been proposed, such as Sodium-glucose Cotransporter-2 (SGLT2) Inhibitors and neprilisin and angiotensin receptor inhibitors, the benefit of these drugs in patients with HF associated with congenital heart disease in adults has not yet been demonstrated. For this reason, this study pretends to evaluate the efficacy of empagliflozin and sacubitril/valsartan in this population.