View clinical trials related to Congenital Heart Disease.
Filter by:Newborns with congenital heart disease (CHD) are at increased risk of developing postpartum and postoperative blood clots after cardiac surgery. The molecular mechanisms that are responsible for the clotting profile predisposing children to blood clots in the early stages of life are currently not well described. The goal of this proposal is to prospectively collect plasma samples from ten (10) neonates with antenatal diagnosis of severe congenital heart disease (CHD) to better understand mechanisms responsible for abnormal clotting in the perioperative period.
The goal of this clinical trial is to learn if the Get Ready with my Heart Program developed based on SMART theory is applicable for AYAs with CHD to enhance their Transition Readiness. The main questions it aims to answer are: 1. Is the Get Ready with my Heart Program clinically feasible? 2. Does the Get Ready with my Heart Program improve participants' Transition Readiness? Participants will: 1. The intervention group will receive interventions according to the Get Ready with my Heart Program, while the control group will receive standard interventions. 2. Outcome measures will be collected before the implementation of the program, and at 3 months and 6 months after the implementation.
The goal of this clinical trial is to learn how well and at what doses gadopiclenol, a new intravenous (IV) contrast agent used for MRI, works to produce high-quality MRI images of the heart, in patients with a history of congenital heart disease, when compared to gadobenate dimeglumine, the IV contrast agent that is normally used at our institution for heart (cardiac) MRI. The main questions it aims to answer are: - Does using gadopiclenol result in similar or superior image quality, similar signal-to-noise ratio (SNR), and similar flow measurements with 4-dimensional (4D) flow cardiac MRI when compared to gadobenate dimeglumine? - At what dose(s) does gadopiclenol result in similar image quality (using the above metrics) for cardiac MRI when compared to gadobenate dimeglumine? Researchers will compare cardiac MRI images obtained after administration of gadopiclenol to cardiac MRI images obtained after administration of gadobenate dimeglumine (called the standard of care treatment) to see if the images are of similar or superior quality. Participants will: - Be randomized to receive either gadopiclenol at one of three different doses or gadobenate dimeglumine before their congenital heart cardiac MRI - Undergo their congenital heart cardiac MRI as they would during the course of normal clinical care.
The aim of this prospective randomized controlled trial is to evaluate therapeutic hypnosis as a co-analgesia in thoracic drain removal in children with congenital heart disease. The hypothesis of this study is that therapeutic hypnosis combined with a minimal effective dose of medicated and inhaled sedation-analgesia is not inferior to higher doses of sedation-analgesia usually employed. This would make possible the reduction of cumulative dose of sedative medication and their side effects.
There are many barriers to heart-healthy lifestyles in pediatric patients with acquired and congenital heart disease. Investigators want to further understand how participants heart and skeletal muscles work together during exercise and evaluate the impact on cardiac function. To do this, the investigators will use magnetic resonance imaging (MRI) to scan the heart and skeletal muscles during exercises to assess blood flow, oxygenation and function.
The RAPID ultrasound is a portable imaging device that captures a one point image from the subcostal region of the heart. The device is set on the patient's chest and captures the image in <1 minute. It uses ultrasound imaging energy that is similar to commercialized devices and safe for patients of all ages and sizes. The device is a non-significant risk and therefore will not require an IDE. Images from RAPID will be taken directly before or after the standard clinical PCU. Images taken from both the RAPID device and the standard PCU will be de-identified and stored securely in BOX for review by two independent cardiologists. Image reviews will be conducted within Box.
Advances in prenatal and neonatal care have improved outcomes in children with severe congenital heart disease (CHD). With the increase in survival, neurocognitive problems such as executive functioning (EF) impairments have become more apparent in these children. EF problems have cascading negative effects on a child's development. New insights in EF development suggest that in otherwise physically healthy young children, EF can be improved by training. In a pilot study funded by Stichting Hartekind, the investigators studied the feasibility of a personalized EF training program called 'Kleuter Extra' and the results were promising. Therefore, the current study will investigate the effectiveness of this program in 4-6-year-old children with severe CHD. The researchers will also explore interactions between the parent-child relationship and EF development of the child as psychosocial difficulties in these children and their parent(s) and/or caretaker(s) may impact EF-development. If found effective, EF training for children with severe CHD will improve their developmental outcome.
The serratus anterior plane block (SAPB) is an anterolateral thoracic wall block that was described in 2013 by Blanco et al. who presented it as an alternative to other regional anesthetic techniques. It has been described in adults as an adjunct to general anesthesia or as a primary anesthetic technique for breast surgery, it has not been widely utilized as a primary anesthetic technique in the pediatric population. It was designed to block primarily the thoracic intercostal nerves and to provide complete analgesia of the lateral part of the thorax. It provides a viable alternative to paravertebral blockade and central neuraxial block in this patient population The investigators believe that the bilateral two-level injection technique may provide effective analgesia as its efficacy was not properly investigated in corrective heart surgeries with median sternotomy in the pediatric population.
This is an observational study in which the data from children with congenital heart disease will be collected and studied. These children will include those who are prescribed rivaroxaban by their doctors after a heart surgery called the Fontan procedure. Congenital heart disease (CHD) is a heart problem that some children are born with. It sometimes requires a surgery called the Fontan procedure to improve the blood flow in the body. The Fontan procedure can increase the risk of the formation of blood clots in the blood vessels (called thrombosis), which might lead to death. The study drug, rivaroxaban, is an approved treatment for preventing the formation of blood clots. It is a type of anticoagulant that prevents the blood from clotting by blocking a protein responsible for it. Rivaroxaban can increase the risk of bleeding. A previous study suggested that the number of major bleeding episodes did not differ much while taking rivaroxaban compared to aspirin in children with CHD who had undergone the Fontan procedure. However, there is limited information available for Japanese patients. To better understand the safety and potential risks of this drug in children, more knowledge is needed about the use of rivaroxaban in the real world. The main purpose of this study is to learn more about the occurrence of major bleeding or non-major bleeding in children who were treated with rivaroxaban. Major bleeding is defined as a serious or life-threatening bleeding episode that can have an impact on a person's health and requires medical attention. Non-major bleeding is defined as a type of bleeding that may negatively impact a person's health if not treated. The data will be collected from December 2023 to June 2026. Researchers will observe each participant for up to 30 days after stopping the treatment or for a maximum of 2 years. In this study, only available data from regular health visits will be collected. No visits or tests are required as part of this study. Researchers will use the medical records or interview the children and/or their guardians during regular visits.
- 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.