View clinical trials related to Heart Defects, Congenital.
Filter by:The goal of this international multicentre prospective observational cohort study with a nested case-control study is to test some automated fetal heart functional parameters in healthy babies compared to those affected by a congenital heart condition. The main questions it aims to answer are: - If there is a significant difference between the two populations of infants - Whether these parameters could significantly improve the predictive value of actual cardiovascular profile score to predict hydrops Participants will be offered two automated cardiac function assessments between 27+6 and 29+6 gestational weeks and between 34+6 and 36+6 weeks of gestation. Functional parameters will be compared between the two study groups and evaluated over time.
Rares diseases are a heterogeneous group of conditions which need important tools for diagnosis. The use of high-throughput sequencing is able to diagnose half of the patients. For the other part it is impossible to conclude due to the presence of variants of unknown significance (VOUS). Functional analysis are needed to bring strong argument to reclassify variants as pathogenic or benign. The main objective is to evaluate the diagnosis yield of this strategy.
This study will examine and record the patient's medical information and medical records (patient files, computer records, etc.). Physical examination, echocardiographic, electrocardiographic, laboratory, radiological, etc. evaluations are made during the routine controls of the patients. Within the scope of this study, no attempt will be made on the patients, no additional tests will be performed, or treatment changes will not be made in the patients because they are included in this study. After these records, KPET will be performed by a specialist doctor and physiotherapist for the patients who are directed to the Faculty of Physical Therapy and Rehabilitation Cardiopulmonary Rehabilitation Unit. Pulmonary function tests and respiratory muscle strength measurements will be performed on patients who have adequate rest after CPET.
Fontan Surgery is done for children with only one working lower chamber of the heart called the 'Single Ventricle'. This surgery involves making connections between the two big veins that drain oxygen deficient blood to the heart and the lung artery directly. Fontan patients may develop long-term complications such as reduced heart function or oxygen levels, increased pressure in the veins, liver or kidney problems etc. The reasons for these complications are poorly understood. The small blood vessels in the body or 'microcirculation' are tiny (can be seen only by microscope) and they supply food and oxygen to the tissues. Very little is known about what happens to the microcirculation in adult Fontan survivors . In this study the investigator want to understand why these adult Fontan survivors develop complications by looking at their microcirculation and comparing them with healthy people and those who were operated for other congenital heart diseases. The study will be conducted in East Midlands Congenital Heart Centre, Glenfield Hospital. Leicester.
Many childhood-onset diseases used to be lethal. Improved life expectancy yield that most patients can survive into adulthood, to date. However, survivors of childhood-onset diseases often develop morbidities that suggest accelerated aging. Indeed, age-related conditions are observed sooner and more frequently in people with childhood-onset diseases. Congenital heart disease (CHD) is a typical example of a childhood-onset disease and is the most common birth defect, comprising a spectrum of mild, moderate and complex heart defects. Recent studies showed that age-related morbidities occur more often and at an earlier age in these patients. The overall goal of this project is to quantify and understand disparities in chronological and biological age over the lifespan in CHD patients.
Cardiovascular disease is the leading cause of death worldwide. Advanced cardiovascular imaging using Magnetic Resonance Imaging (MRI) has proven to be effective in providing gold standard myocardial tissue characterization. Moreover, the intrinsic advantage of MRI's lack of exposure to ionizing radiation is particularly beneficial. At the same time, blood work can be very useful in early detection of certain cardiomyopathy, such as amyloid. However, there is a lack of agreement of on which markers are the most sensitive. This multi-study will allow us the unique opportunity to form a more comprehensive understanding for various cardiovascular diseases. Our team has developed novel cardiac MRI techniques that leverages endogenous tissue properties to reveal a milieu of deep tissue phenotypes including myocardial inflammation, fibrosis, metabolism, and microstructural defects. Among these phenotypes, myocardial microstructure has proven to be most sensitive to early myocardial tissue damage and is predictive of myocardial regeneration. In this study, the investigators aim to further study the importance of cardiac microstructure revealed by MRI in patient and healthy population and compare this novel technology with conventional clinical biomarkers.
The goal of this clinical trial is to test the safety of lab-grown heart cells made from stem cells in subjects with congenital heart disease. The main questions it aims to answer are: - Is this product safe to deliver to humans - Is the conduct of this trial feasible Participants will be asked to: - Agree to testing and monitoring before and after product administration - Receive investigational product - Agree to lifelong follow-up Researchers will compare subjects from the same pool to see if there is a difference between treated and untreated subjects.
Congenital heart disease occurs in about 1% of live births and can range from (1) naturally curable conditions that require no treatment to (2) conditions that require multiple immediate operations or refractory severe conditions. In the course of a staged surgical intervention, adhesion formation around the heart and large vessels can occur, and dissection of the adhesion site is required at the time of reoperation. There is a concern that dissection may markedly increase the risk of operation such as prolonged surgical time, cardiovascular injury, and increased blood loss, and medical devices to prevent adhesion formation after operation in the field of pediatric cardiovascular operation are strongly desired in medical settings. The investigational product (BAX602), which has already been manufactured and marketed by Baxter overseas, has been used for open heart surgery as a local hemostatic agent without biological materials in Europe and the US for more than 20 years. However, since it has not been approved in Japan, this randomized controlled study will be conducted in Japan to demonstrate the effect of BAX602 to prevent and reduce adhesion formation between the surface of the heart/large vessels and surrounding tissues in pediatric patients undergoing planned multistage operation for congenital heart disease.
The purpose of this study is to implement and externally validate an inpatient ML algorithm that combines pulse oximetry features for critical congenital heart disease (CCHD) screening.
In this prospective study, the investigators will enroll 154 children with arterial lines to determine the accuracy of pulse oximeters in children with darker skin pigmentation. Studies in adults suggest pulse oximeters may overestimate the true level of oxygenation in the blood as measured directly by co-oximetry. However, pediatric data are relatively limited. This study, which is funded by the FDA through the Stanford-UCSF (University of California San Francisco) Clinical Excellence in Regulatory Science and Innovation (CERSI) Program, will determine if the error/bias is associated with skin pigmentation and whether the error falls outside FDA standards. The broader purpose of the study is to work toward eliminating health disparities.