View clinical trials related to Congenital Heart Disease.
Filter by:The objective of this postmarket, retrospective, single center study is to evaluate the clinical outcomes of patients who have received PhotoFix® Decellularized Bovine Pericardium (PhotoFix) as a patch within a cardiac surgical repair or reconstruction procedure. PhotoFix is prepared from bovine pericardium, which is stabilized using a dye-mediated photo-oxidation process and sterilized using aseptic processing techniques.
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.
In pediatric patients (newborns and infants weighing less than 10 kg) undergoing cardiac surgery with extracorporeal circulation postoperative bleeding represents a known complication with a significant impact on outcome. Fresh frozen plasma (FFP) for bleeding management is associated, particularly in this kind of patients, to volume overload and a significative increase of Transfusion Related Acute Lung Injury (TRALI), further worsening the postoperative outcome. In the adult patient FFP employment could be almost completely canceled by administration of concentrated hemostatic components - the fibrinogen concentrate and prothrombin complex concentrate (PCC). We designed this phase II pilot study to establish whether an analogous strategy, modified accordingly to pediatric physiology, could be safely and successfully applied in newborns and infants.
This clinical trial is being done to see if giving surfactant (Curosurf®) will decrease the number of days that infants will need a breathing tube, decrease the days in the critical care unit and decrease the number of days needed in the hospital. The primary hypothesis for this study is that there will be fewer days needed on mechanical ventilation and improved lung compliance and pulmonary gas exchange.
The second stage operation towards single ventricle palliation is 'bidirectional cavopulmonary connection' (BCPC). The superior vena cava is connected to the pulmonary artery, diverting 'blue' blood from the upper body (including the brain) to the lungs. A successful BCPC requires sufficient and easy blood flow through the lungs. Alprostadil is the synthetic form of prostaglandin (hormone that causes dilation of blood vessels) and has been shown to increase blood flow in the brain hence increasing blood flow to the lungs after BCPC, potentially useful in managing children post BCPC with low flow to the lungs and thus poor oxygenation. This study propose to investigate acute effects of Alprostadil on different blood vessels after BCPC.
The primary purpose of this study is to evaluate the diagnostic performance of three methods for measuring right ventricular size and function including the Philips Novel RV quantification technologies (RV Heart Model volumetric analysis and Philips 2D strain) and the Upper Valley Right Ventricle Algorithm (UVRV) algorithm as compared to the gold standard of volumetric analysis via cardiac magnetic resonance imaging (CMR) in a broad patient population.
Newborn babies and children with congenital heart defects who need heart surgery need to be placed on the heart-lung machine for heart surgery. In order to use the heart-lung machine, the investigators have to use blood and other fluids to fill the tubing. During the operation, ultrafiltration is carried out as standard of care to remove extra fluid. Modified ultrafiltration is also performed after surgery. In this study, the investigators are looking to use the filter additionally before surgery. Using the pre bypass filtration before the subject is placed on the heart-lung machine will allow the investigators to better normalize electrolytes in the blood/fluid mixture used in the heart lung machine. This technique is called pre-bypass ultrafiltration, or PBUF (pronounced "P" Buff). The investigators are conducting a study to see if using PBUF to better normalize electrolytes in the blood will make a difference. The investigators have been adding fluids to prime the heart-lung machine in two different ways. The investigators believe both methods are safe and acceptable but hypothesize that there may be subtle differences in electrolytes and fluid status when one technique is used as opposed to the other. The investigators believe that neither technique introduces risk since both are currently used in practice. The standard method adds blood to the heart-lung machine. The alternate method adds blood to the heart-lung machine and then additional fluid is added and removed to more normalize the electrolytes. The investigators plan to randomized subjects undergoing heart surgery to receive the standard priming method versus PBUF to determine if there is any difference in outcomes. Laboratory and clinical data collected as part of clinical care will be used to determine difference sin outcomes. There will be no additional blood taken for this study. There are no known risks to PBUF. The benefits include helping investigators determine if PBUF does or does not make a difference to how subjects recover after surgery. The investigators believe that providing more normal blood values will either improve the subjects' outcome or have no benefit. The investigators do not anticipate increased risks. Given COVID -19 restrictions, the study is on hold.
The main objectives of the study are to determine peak plasma drug concentration levels and corresponding time of dexmedetomidine following intranasal administration in children age ≥1 mo to ≤ 6 yr with congenital heart disease undergoing an elective diagnostic or interventional cardiac catheterization procedure.
The closed-loop stimulation (CLS) algorithm is a novel sensor-based technology that relies on the change in myocardial systolic impedance for modulation of the heart rate during physical and emotional stress.3 The pacing algorithm has been shown to be highly effective for a wide range of clinical scenarios. Despite the fact that congenital heart disease (CHD) patients are likely to derive significant benefit in terms of functional ability and aerobic capacity using this novel technology, the CLS system has not been adequately studied in this population. As many CHD patients also undergo epicardial placement of pacing systems at the time of concomitant cardiac surgery, CLS has been less often utilized in this population given almost no data in the setting of surgical electrode placement. The present study intends to examine the benefits of the CLS algorithm in the CHD population, employing the use of epicardial pacemaker systems in the study protocol.
In pediatric cardiac patients with shunt dependent pulmonary circulation, Qp/Qs ratio is a important parameter indicating the balance of pulmonaty and systemic circulation. This study will calculate Qp/Qs using variables measured using non-invasive monitors (cerebral oximeter and pulse oximeter). This value will be compared with Qp/Qs calculated using variables obtained from blood sample.