View clinical trials related to Transplant; Failure, Heart.
Filter by:The purpose of this study is to evaluate if Non-Ischemic Heart Preservation (NIHP) of extended criteria donor hearts using the XVIVO Heart Preservation System (XHPS) is a safe and effective way to preserve and transport hearts for transplantation.
The purpose of this study is to evaluate the device performance and monitor the safety and effectiveness of the Berlin Heart EXCOR Active Driving System while being used with the approved EXCOR Pediatric Ventricular Assist Device. EXCOR Active Driving System is intended for use with the approved EXCOR Pediatric VAD. The EXCOR Pediatric VAD is intended to provide mechanical circulatory support as a bridge to cardiac transplantation for pediatric patients. Pediatric candidates with severe isolated left ventricular or biventricular dysfunction who are candidates for cardiac transplant and require circulatory support may be treated using the EXCOR Pediatric. EXCOR Active is intended for use in a clinical setting. EXCOR Active can be used in any kind of hospital unit (e.g. OR, ICU, intermediate care unit or general care unit). The driving unit may be moved between clinical units using the caddy or baby buggy; however, a patient must always be accompanied by a person trained in the use of the manual pump and emergency procedures during transport in the event of an emergency. The driving unit can be transported during operation.
Heart transplantation is the long-term treatment for children and adults with advanced heart failure. Post-transplant outcomes have improved over time, such that 50% of pediatric heart transplant recipients (HTR) remain alive with a need for re-transplantation 17-years following the initial transplant. With improved short- and medium-term outcomes, focus has shifted towards optimizing long-term survival and reducing transplant-associated morbidities. This includes strategies aimed at optimizing cardiorespiratory fitness and physical activity levels. Pediatric and adult HTRs have reduced exercise capacity compared with the general population. Previous groups have shown gradual improvements in heart rate response to exercise and exercise capacity in pediatric HTRs. However, after an initial improvement, exercise capacity appears to plateau, or even decline in pediatric HTRs, and remains sub-optimal compared with the general population. Most exercise interventions in HTRs to date have focused on moderate-intensity continuous exercise (MICE), with some resistance components incorporated. More recently, high-intensity interval training (HIIT), consisting of short, intense bursts of exercise with rest periods, has been explored in the adult HTR population, with findings to date suggesting that it may yield greater improvements in cardiorespiratory fitness compared with MICE. Exercise interventions, particularly HIIT interventions, have consistently shown clinically important improvements in exercise capacity in adult HTRs that are linked with improved long-term post-transplant outcomes and well-being. Unfortunately, trials of exercise interventions in pediatric HTRs remain lacking. This study team is proposing an assessment of the feasibility of a home-based HIIT exercise program using a novel telemedicine-enable video game linked customizable cycle ergometer (MedBIKE™).
Infants and children with heart conditions require treatment in children's hospitals that are typically located in large cities. This creates challenges for children and families who need to travel long distances to come to appointments. Providing quality care to children with heart disease has further been challenged by the COVID-19 pandemic, with a shift towards decreased in-person contact and an increase in virtual visits, where assessment by doctors and nurses is more limited. This research study will look at how families of children with heart disease access care and how investigators can improve care with virtual technologies. This will involve testing a new home-based virtual care platform that uses Bluetooth technology to connect weight scales, oxygen measuring devices and blood pressure cuffs with a smartphone app, allowing parents to easily use these devices and send accurate data directly to the cardiology team. Investigators will obtain feedback from families, patients, and healthcare providers about how this helped or did not help them, and adjust the technology as needed to make it better.
1. Cell-free DNA does not vary significantly as a function of the activity of immunologically quiescent cardiac transplant recipients, despite the metabolic demands of the transplanted organ. (The implication of the null result would be that no restrictions to patient activity, nor modification of cardiac rehabilitation prescription, would be necessary to maintain proper test characteristics of AlloSure testing). 2. In immunologically active cardiac transplant allografts, exercise prior to assay of donor-derived cell-free DNA can be used to increase the sensitivity of the AlloSure test. (The implication of this would be that the optimal time-frame for drawing an Allosure may actually be post-exercise, and that window will be characterized).
In this study we seek to test the hypothesis that safety and clinical outcomes after cardiac transplantation utilizing HCV NAT+ donor organs as currently performed are acceptable.
Objective: To evaluate the effects of an early-based cardiac rehabilitation program on the functional capacity, inspiratory muscular strength and clinical outcomes in hospitalized heart failure patients before and after heart transplantation. Method: 30 hospitalized heart failure patients awaiting cardiac transplantation will be selected and randomized in 2 groups: conventional group (n = 15) - conventional exercise protocol: breathing exercises and global active exercises of upper and lower limbs in the sitting position; and Intervention group (n = 15) - cycle ergometer exercise protocol: each session consists of cycling on a stationary bicycle in the seated position for 20 minutes. In both groups, the exercise protocols will be applied twice a day until the hospital discharge, always supervised by a physiotherapist and a doctor. The evaluation procedures in all patients of the research will be: functional capacity measured by the 6 minute walk test and inspiratory muscle strength measured by manovacuometry. Evaluations will be repeated in 3 distinct moments: after 24h of hospital admission and/or clinical stabilization; before transplantation and after transplantation in hospital discharge.