View clinical trials related to Single-ventricle.
Filter by:Patients with single ventricle physiology (hypoplastic left heart syndrome, tricuspid atresia) frequently have feeding difficulties necessitating procedures such as Nissen fundoplication and G-tube placement. With advances in minimally invasive surgery, these are frequently performed using laparoscopic techniques. Although generally safe and effective, the increase in IAP during laparoscopy may increase systemic and pulmonary vascular resistance and decrease cardiac output. This prospective study will include 50 patients with single ventricle physiology presenting for laparoscopic procedures. There will be no change in the anesthetic or perioperative care of these patients. Tissue and cerebral oxygenation will be monitored using near infrared spectroscopy (NIRS).
The purpose of this study is to test the efficacy of treprostinil (TRE) in the perioperative non-fenestrated, extracardiac Fontan patients in order to reduce duration of chest tube drainage (in days). The Fontan operation is performed for patients with single ventricle physiology as the final palliation to create a series circulation, with passive systemic venous return to the pulmonary arteries and the single ventricle solely providing systemic output. Patients undergoing extracardiac Fontan tend to have elevation of Fontan pressures immediately following the operation with inflammation from surgery requiring additional fluid administration to maintain blood pressure. Increased Fontan pressures and fluid overload lead to prolonged chest tube drainage. The hypothesis is that treprostinil, a prostacyclin drug that dilates the pulmonary arteries, will improve immediate postoperative Fontan pressures. Treprostinil is not FDA approved for this use. Anecdotally and in a small case series, prostacyclin therapy has been shown to assist in transitioning patients off nitric oxide. The investigators believe that this improvement in hemodynamics will decrease duration of chest tube drainage resulting in a shorter length of hospital stay.
Introduction: The Fontan operation is the surgical treatment in most patients with either anatomic or functional single ventricles. In this operation, the subpulmonary ventricle is bypassed, connecting the systemic veins directly to the pulmonary arteries. The lack of a subpulmonary ventricle is associated with a nonpulsatile pulmonary flow and triggers a sequence of adaptive mechanisms along the life of these patients. The most frequent consequence of these adaptative mechanisms is the reduction in functional capacity, objectively measured by the decrease in peak oxygen consumption (VO2). So, cardiovascular and pulmonary functioning and skeletal muscle alterations can explain exercise intolerance in these patients. Objectives: 1. To compare the cardiovascular, pulmonary, and musculoskeletal system variables in clinically stable Fontan patients with Healthy subjects; 2. To correlate the variables of the cardiovascular, pulmonary, and skeletal muscle with the functional capacity in Fontan patients; 3. To identify predictors of low functional capacity in this population; 4. To evaluate four-month aerobic exercise and inspiratory muscle training on functional capacity, pulmonary function, and autonomic control in patients after Fontan operation and compare to the group with no exercise training. Methods: All subjects were submitted to cardiovascular, pulmonary, and skeletal muscle evaluation at baseline to perform a cross-sectional study comparing Fontan Patients (FP) with Healthy Controls (HC). In addition, the FP accepted to participate in the longitudinal clinical trial to evaluate exercise programs were randomized into three groups: Aerobic Exercise Training (AET), Inspiratory Muscle Training (IMT), and Non-exercise Training Group (NET, a control group). All patient groups (AET, IMT, NET) were reassessed after four months of training or under usual care. Expected Outcomes: This study expects to demonstrate that impaired pulmonary function, altered neurovascular control, and reduced skeletal muscle could be an additional potential mechanism for reducing functional capacity in clinically stable Fontan patients. And this impairment could be diminished by exercise training, enhancing physical capacity, and exercise tolerance.
Mechanisms that typically result in increased cardiac output, such as inotropic support, increased heart rate, and decreased afterload, have a blunted effect in Fontan circulation. The "thoracic pump" is a contributor to venous return that has been largely unexplored in patients with Fontan physiology. Inspiratory muscle training can improve the performance of competitive athletes across a range of sports and can improve quality of life and functional capacity in heart failure patients, presumably by reducing inspiratory muscle fatigue and possibly by improving peripheral blood flow during exercise. One could surmise that the effects of these changes would be particularly important in the Fontan population. The investigators propose to study the effects of inspiratory muscle training on exercise and pulmonary function parameters in a cohort of adult Fontan patients. The investigators hypothesize that a 12-week program of inspiratory muscle training with an inspiratory impedance threshold device will improve inspiratory muscle strength and endurance, and that this will translate into improved exercise performance in patients with Fontan physiology.
The purpose of this protocol is to measure the relaxation of the heart in subjects with single ventricles who have undergone the surgical Fontan procedure. We will do this by measuring relaxation with MRI, echocardiography, and cardiac catheterization and compare to blood levels that measure heart scarring. We will also measure relaxation before and after boluses of intravenous (IV) fluids to see if the relaxation changes when there is more fluid in the heart. Measurements of heart relaxation will be obtained from the MRI, echocardiogram, and cardiac catheterization for each patient and compared to blood markers of heart scarring. We aim to compare all of these measurements to see if we can accurately identify heart scarring and, if present, how much it correlates with impaired heart relaxation.
This pilot study is aimed at assessing the short-term effects of Tadalafil on the hemodynamic response to exercise and exercise capacity in patients with Fontan circulation. Data regarding effect size and drug tolerability will be used in the design of a randomized multicenter trial. The long-term goal of this investigation is to systematically evaluate the effect of tadalafil therapy on exercise performance, quality of life, and delay of functional deterioration in patients with single ventricle physiology.
Hypoplastic left heart syndrome (HLHS) and related anomalies involved a single ventricle are characterized by hypoplasia of the left heart and the aorta with compromised systemic cardiac output. Infants with the syndrome generally undergo a staged surgical approach in view of an ultimate Fontan procedure. Although long-term survival in patients with HLHS and related single ventricle physiology has improved markedly with advances in medical and surgical therapies, a growing number of infants will ultimately require heart transplantation for end-stage heart failure due to several potential disadvantages include a negative effect on right ventricular function, arrhythmia, additional volume load via regurgitation from the nonvalved shunt, and impaired growth of the pulmonary artery. Risk factors for poor outcome of heart transplantation with HLHS and single ventricle physiology are older age at transplantation and previous Fontan operation. New strategies are needed to improve the underlying transplant risks proper for the Fontan failure patients. Emerging evidence suggests that heart-derived stem/progenitor cells can be used to improved cardiac function in patients with ischemic heart disease. In this trial, the investigators aimed to test the safety and feasibility of intracoronary injection of autologous cardiac progenitor cells in patients with HLHS and related single ventricle anomalies and that could improve ventricular function at 3 months' follow up.
Purpose: The purpose of the Destination Therapy Evaluation for Failing Fontan Study (DEFINe Study) is to perform a single center physician-investigator led feasibility study to initiate examination of the safety and efficacy of implanting continuous flow circulatory support devices in 20 patients with failing Fontan physiology, not amenable to other surgical or medical therapy and who are not candidates for heart transplantation. Based upon the results of the DEFINe study, consideration would be given to a larger multicenter study. The primary endpoint is survival without a disabling stroke at two years. Safety, functional status, total days alive following hospital discharge and quality of life assessments will be evaluated as secondary endpoints. Background: Patients born with the congenital anomaly of a single ventricle often undergo Fontan procedures to improve oxygenation and circulation. As the patient matures, the benefits of the Fontan procedures become exhausted. These patients present as young adults with heart failure, and should be considered for heart transplantation. "Failed Fontan" physiology patients are now more commonly surviving into their 30s and 40s due to the advancement in surgical Fontan procedures over the last several decades. Yet, many patients are not appropriate transplant candidates due to progression of pulmonary failure that surpasses the pulmonary vascular resistance limits, end organ failure effects to the liver, and cardiac failure that does not present with left ventricular ejection fractions of less than 25%. Congenital heart disease is considered a higher risk indication for transplantation. Such patients present a complex anatomy, scar tissue from prior procedures, unique pathological states and limited ability to assess hemodynamics. Methods: Patients with failing Fontan physiology will be evaluated for surgical intervention, heart transplantation or participation in the study for long-term support, known as Destination Therapy (DT). Patients who do not meet the study criteria will be asked to participate in a sub-study to collect patient information. Consenting patients who meet the study criteria will be implanted with a HeartMate II Ventricular Assist Device (VAD) to improve cardiac output. Following VAD implantation, the patient will recover in the hospital, and then discharge to home or an approved facility. Study data will be collected as long as the patient receives VAD support. Placement of the VAD and continuing patient care should improve cardiac output and quality of life for this population of patients born with the congenital anomaly of a single ventricle. Outcomes: The primary endpoint of the study is to examine survival without a disabling stroke at two years (defined as a score of four or greater on the Modified Rankin Scale). Safety, functional status, total-days-alive following hospital discharge, and quality of life assessments will be evaluated as secondary endpoints.
The objective of this research proposal is to perform an ongoing single institution prospective clinical trial examining the overall clinical outcome of children with single ventricle physiology.