View clinical trials related to Heart Diseases.
Filter by:Background: Congenital heart disease (CHD) is the most frequent inborn defect with an incidence of 1 in 100 newborns per year, i.e. 800 children born in Switzerland per year. 10% to 15% of cases are born with single ventricle (SV), the most complex type of CHF requiring immediate surgical intervention after birth. Infants with SV CHD are treated in three surgical staged procedures over the first three years of life. However, cerebral injuries occur in around 40% of those children and impact neurocognitive abilities. As more than 90% of all infants with CHD survive to adulthood, scientific concern is focussed on patient-individual course brain growth and development within the relative contribution of fetal, perinatal, cardiac and surgical risk factors. Therefore, serial cerebral MRI examinations are needed, starting (1) at the third trimester during fetal life proceeding to (2) pre- and postoperative time points at the stage I surgery after birth and (3) before stage II surgery at 4 months of age. We will compare the cerebral MRI findings with a healthy control population, recruited at the same time points, and correlate brain growth and development with the neurodevelopmental outcome assessed at one year of age. Three Pediatric Heart Centers in Switzerland and Germany will participate. The overall aims are: 1. To analyse the patient-individual cerebral developmental trajectories, brain growth and determine the time course of brain abnormalities in infants with single ventricle CHD by serial cerebral MRI during fetal life, after birth and at an age of 4 months (primary endpoints). 2. To determine the neurodevelopmental outcome at one year of age using the Bayley III and will be correlated with the brain growth and brain development in the third trimester of fetal life and at the age of 4 months (secondary endpoints). 3. To analyse fetal, neonatal, surgery-related and intensive care associated factors determining the patient-individual course for altered cerebral growth and impaired neurodevelopmental outcome at one year of age. Methodology: We will prospectively enroll fetuses and neonates with single ventricle CHD at the three Pediatric Heart Centers in Switzerland (Zurich, Bern) and Germany (Giessen). Advanced MR imaging will assess cerebral volumes, microstructural and hemodynamic changes at repeated time points during the third trimester of fetal life (32. week of gestation), the perioperative neonatal period before and after stage I surgery and before stage II surgery at 4 months of age. Biomechanical analysis of longitudinal changes of brain morphology will be applied to longitudinal fetal and neonatal MRI data. Outcome is determined with the Bayley-III at one year of age. Significance: Using a population-based sample of children with single ventricle CHD, we will be able to determine cerebral growth from the third fetal trimester until the first 4 months after birth, when the brain is most rapidly growing. By performing serial brain imaging, the knowledge of etiological pattern affecting cerebral growth, development and brain injury will increase. Morphometric and biomechanical analysis of brain growth patterns will be performed that may capture fine-grained changes associated with CHD. By correlating these data with the neurodevelopmental outcome at one year of age it will be possible to identify specific risk constellations leading to impaired brain development and categories of brain injuries that confer a higher risk of adverse outcome. The better understanding of the pathophysiological mechanisms will serve as the basis for neuroprotective studies and pharmacological trials aiming to improve outcomes in children with CHD in the future.
"Xuefu-Zhuyu capsule" (XFZY) is made from a classic Fangji "Xuefu-Zhuyu Decoction" in an ancient Chinese medical book "Yi Lin Gai Cuo" by Chinese physician Wang Qingren, which is the most representative formula for the treatment of "Qizhi-Xueyu Zheng" (Qi Stagnation and Blood Stasis Syndrome). XFZY concludes 11 kinds of Chinese herbs: Danggui(Angelica sinensis), Honghua(Safflower Flower), Chishao(Paeoniae Radix Rubra), Shengdihuang(Radix Rehmanniae), Taoren(Peach Seed), Zhike(Fructus Aurantii), Jugeng(Platycodon grandiflorum), Chuanxiong(Rhizome of Chuanxiong), Chaihu(Radix Bupleuri), Chuanniuxi(Cyathula Officinalis),Gancao(liquorice).It is mainly used to treat "Qizhi-Xueyu Zheng", which includes the symptoms such as different types of pain, irritability or depression, insomnia, chest tightness, dark skin, lumps or masses in vitro or in vivo, petechiae on the tongue, and dark purple tongue. The purpose of the trial is to evaluate the efficacy and safety of XFZY in treating "Qizhi-Xueyu Zheng", and investigate the most suitable diseases of XFZY.
Neurodevelopmental impairment due to delayed brain development and brain injury is a fundamental problem in children with critical congenital heart disease (CCHD). Significant longterm motor-, cognitive-, and behavioral problems are the result of early postnatally and perioperatively induced brain injury. Allopurinol, a xanthine oxidase inhibitor, prevents the formation of toxic free oxygen radicals, thereby limiting hypoxia-reperfusion damage. Both animal and neonatal studies suggest that administration of allopurinol reduces hypoxic-ischemic brain injury, is cardioprotective, and safe. This study aims to evaluate the efficacy and safety of allopurinol administered early postnatally and perioperatively in children with a CCHD requiring cardiac surgery with cardiopulmonary bypass.
Acute kidney injury (AKI) following cardiac surgery for congenital heart defects (CHD) in children affects up to 60% of high risk-patients and is a major cause of both short- and long-term morbidity and mortality. Despite effort, to date, no successful therapeutic agent has gained widespread success in preventing this postoperative decline in renal function. Nitric oxide is an intricate regulator of acute inflammation and coagulation and is a potent vasodilator. The investigators hypothesize that nitric oxide, administered during cardiopulmonary bypass (CPB), may reduce the incidence of AKI.
Severe pulmonary regurgitation is common in patients with Tetralogy of Fallot and results in progressive right ventricular dilatation and dysfunction. Pulmonary valve replacement is frequent in this population, and percutaneous procedures are increasing. Ventricular arrhythmias are a frequent late complication in patients with tetralogy of Fallot. The most common critical isthmus of ventricular tachycardias is between the pulmonary valve and the ventricular septal defect patch. While an electrophysiology study is sometimes performed in expert centers before surgical pulmonary valve replacement to guide a surgical ablation if needed, this approach is not recommended in current guidelines. An electrophysiology study should also be considered before percutaneous pulmonary valve replacement, as a part of the critical isthmus may be covered by the prosthetic pulmonary valve. Moreover, ablation after percutaneous pulmonary valve insertion exposes patients to the risks of traumatic valve or stent injury and infectious endocarditis. At present, reliable predictors to identify high-risk patients in whom an electrophysiology study should be performed before pulmonary valve replacement are lacking. The aim of this study is to assess prospectively the yield of systematic electrophysiology study and programmed ventricular stimulation before surgical and percutaneous pulmonary valve replacement in patients with tetralogy of Fallot.
Arrhythmias represent one of the main late complications in patients with congenital heart disease. Atrial arrhythmias are associated with a significant morbidity and are the first cause of urgent hospitalization, and sudden death from ventricular arrhythmias is a leading cause of death in this population. The exponential increase of the number of patients with congenital heart disease and the improvement of ablative technologies are associated with a significant increase of the number of catheter ablation procedures. Most of available studies are retrospective or include a limited number of patients. The aim of this study is to assess the efficacy of catheter ablation in patients with congenital heart disease through a national prospective registry. Secondary objectives are i) to identify factors associated with catheter ablation efficacy in different cardiac defects, ii) to describe complications associated with catheter ablation in this specific population, and iii) to assess the impact of catheter ablation on quality of life of patients with congenital heart disease.
Greater diagnostic accuracy is required to find out who is at risk of a heart attack as this can reduce the requirement of more invasive downstream tests and thereby improve the patient experience and also reduce their exposure to risk. Stress echocardiography is a routine clinical test that involves using ultrasound to image the heart whilst it is under stress to assess the risk of a heart attack. This study will focus on developing more accurate analysis tools to interpret the results of these stress echocardiographic scans. New methods will be tested to measure the function of each part of the heart muscle, using advanced analysis of the information obtained when high-frequency sound waves are bounced off the heart inside the chest. The researchers will measure and report exact heart function during stress, so that they will be able to recognise normal hearts and those with any disease. New computer methods will be developed to display any abnormality, which will make it easier for doctors to choose the best treatment for patients who are at risk. The goals and potential benefits of this research proposal are to update the interpretation of a routinely used clinical test (stress echocardiography) to produce a reliable new method for diagnosing the precise effects of diseased arteries on the function of the heart muscle; to develop new computer graphics that adapt to show individual risks for each patient; and to implement new computer models that can be constantly updated
Despite many advances in our understanding of the natural history and progression of chronic kidney disease (CKD) and cardio vascular disease (CVD) in the parent CRIC study over the past 15 years, important questions about key risk factors for these diseases remain unanswered in the AI population. To address this burden of CKD in AI communities Investigators formed a consortium of investigators with extensive experience in conducting research of chronic diseases including diabetes, cardiovascular and kidney disease in AIs of Southwestern US. The proposed CRIC ancillary cohort study of 500 AIs (AI-CRIC) will rapidly improve our understanding of both potential risk factors for CKD progression, as well as the scope of this disease among AIs. This study leverages the current CRIC study and incorporates the planned activities of the next phase of the study - "CRIC 2018" - by implementing contemporary CRIC protocols for kidney and cardiovascular measurement and outcomes.
In adolescents with obesity cardiopulmonary exercise testing (CPET) has become an important clinical examination providing valuable information with regard to the integrative exercise responses, including the pulmonary, cardiovascular and muscular systems. During CPET, mechanical constraints in ventilation, an elevated risk for hypoxia and chronotropic incompetence (CI) (defined as the inability of the heart to increase its rate with increased activity), or compromised cardiac function (e.g. lowered heart rate (HR) recovery, chronotropic index and stroke volume) are often observed in obese adults. Moreover, several studies regarding exercise capacity and cardiopulmonary responses to maximal endurance exercise testing have been performed in obese adolescents. Despite these previous investigations in obese adolescents it remains controversial whether cardiopulmonary disturbances can be observed consistently during CPET. However, a number of studies have reported a suboptimal response to exercise, in particular a reduced peak heart rate (HRpeak) and peak cycling power output (Wpeak). Adult obesity modifies cardiac behavior, including resting HR and CI, which has a marked effect on exercise capacity. Therefore, chronotropic variables are the most important factors that affect exercise performance. It has been shown that both peak and resting HR account for over forty percent of variability of exercise capacity. Interestingly, resting HR and HR response to exercise, including a blunted HR increase, low chronotropic index and HR recovery, are important predictors of all-cause mortality and cardiovascular death, at least in adults. These changes in HR during and recovery from CPET are mediated by the balance between sympathetic and vagal activity of the autonomic nervous system. Adverse cardiovascular outcomes associated with the metabolic syndrome may be mediated by autonomic dysfunction, whereby obesity is characterized by sympathetic predominance and a decrease in vagal activity in the basal state, where reduced sympathetic responsiveness has been observed during exercise. Therefore, these multiple exercise risk markers could provide valuable clinical information regarding cardiometabolic health. Nonetheless HR behavior during CPET has not been described in obese adolescents. The goal of this study is to examine the HR behavior of obese adolescents during CPET to clarify whether this population suffer from CI.
This is a Phase 1, prospective, multi-center, open-label, sequential dose escalation study to explore the safety, feasibility, and efficacy of a single intracoronary infusion of BNP116.sc-CMV.I1c in patients with NYHA Class III heart failure. Patients with symptomatic congestive heart failure will be enrolled until up to 12 subjects have received infusions of investigational product. All patients will be followed until 12 months post treatment intervention, and then undergo long-term follow-up via semi-structured telephone questionnaires every 6 months for an additional 24 months (+/- 30 days).