View clinical trials related to Heart Diseases.
Filter by:Conventionnal cadiac magnetic resonance (CMR) is the reference to assess changes in right heart flow and pulmonary artery hemodynamics in patients with repaired Tetralogy of Fallot. 4D Flow CMR Imaging is a new imaging modality able to assess all of these parameters faster (8 min vs 30 min) and more comfortably. The aim of this study is to compare conventionnal CMR and 4D Flow CMR for the assessment of these parameters (ventricular volume, ventricular systolic function, and regurgitation of the pulmonary pathway).
Among patients with stable ischemic heart disease who are referred for coronary angiography, a substantial proportion have non-obstructive coronary artery disease (CAD). Ischemia based on symptoms or stress testing may be due to coronary microvascular dysfunction in up to 40% of these patients. However, the mechanisms and optimal treatment of coronary microvascular dysfunction are unknown. Aberrant platelet activity and inflammation have been hypothesized as mechanisms of microvascular dysfunction. Investigators plan to evaluate association between platelet activity, inflammation, and coronary microvascular dysfunction in stable women referred for coronary angiography, and to identify non-invasive correlates of coronary microvascular dysfunction in these patients.
To assess the need of respiratory gated radiotherapy in left sided breast cancer patients.
Children with disorders that impact neurodevelopment often have difficulties with executive functions and regulating emotions. Cognitive-based video game training has been shown to improve outcomes, however, this training has been expensive, has required professional supervision, and has been investigated only within a narrow group of children. The Mega Team study will test the effects of a highly engaging, take-home video game-based intervention designed to improve executive functioning in children with various brain-based developmental disorders.
Patients undergoing transcatheter valvular interventions will be prospectively included into the present registry. Baseline, procedural and follow-up data will be collected and analyzed to adress various issues in the field of percutaneous valvular interventions.
Background Coronary heart disease has become a serious challenge to China with its high prevalence and mortality. The impaired glucose regulation is prevalent in patients with cardiovascular disease. However, there are few drugs that interfere early with impaired glucose regulation. Ginkgo biloba extract is not only a commonly used drug for cardiovascular diseases, but also has a significant effect in reducing blood sugar. Therefore, this study used a single case randomized controlled trial to explore the efficacy of Ginkgo biloba pills in the treatment of coronary heart disease patients with impaired glucose regulation. Methods This is a randomized, double-blind, placebo-controlled, three-period crossover trial for a single subject.A total of 12 subjects will be recruited in this trial. The trial is divided into three cycles, one cycle has two treatment periods. Ginkgo biloba pills and placebo will be randomized during the treatment period. The test period will be lasted 58 weeks and subjects will take 48 weeks. Subjects will be selected by the researcher strictly in accordance with the inclusion and exclusion criteria.
The foods we eat - our diet - can affect whether we develop diseases during our lives, such as diabetes or heart disease. This is because the amount and types of foods we eat can affect our weight, and because different foods are metabolised (processed) by the body in different ways. Scientists have also found that the bacteria in our guts (the gut microbiome) affects our metabolism, weight and health and that, together with a person's diet and metabolism, could be used to predict appetite and how meals affect levels of sugar (glucose) and fats (lipids) found in blood after eating. If blood sugar and fat are too high too often, there's a greater chance of developing diseases such as diabetes. The gut microbiome is different in different people. Only 10-20% of the types of bacteria found in our guts are found in everyone. This might mean that the best diet to prevent disease needs matching to a person's gut microbiome and it might be possible to find personalised foods or diets that will help reduce the chance of developing chronic disease as well as metabolic syndrome. The study investigators are recruiting volunteers aged 18 years or over from the TwinsUK cohort to take part in a study that aims to answer the questions above. The participants will need to come in for a clinical visit where they will give blood, stool, saliva and urine samples. The participants will also be given a standardised breakfast and lunch and fitted with a glucose monitor (Abbott Freestyle Libre-CE marked) to monitor their blood sugar levels. After the visit, the participants will be asked to eat standardised meals at home for breakfast for a further 12 days. Participants will also be required to prick their fingers at regular intervals to collect small amounts of blood, and to record constantly their appetite, food, physical activity and sleep using apps and wearable devices.
Compared with conventional treatment of the coronary heart disease,the aim of the research is to find out if the addition of Yangxinshi pills on the basis of conventional treatment can improve exercise tolerance of patients with coronary heart disease, improve quality of life or restore social function and mental health
Background Physical activity (PA), is an effective means of protecting against cardiovascular disease (CVD) development. PA refers to any skeletal muscle bodily movement that requires energy expenditure. Research shows that low- to moderate-intensity muscle endurance exercise, such as walking or brisk walking for about 15-20 minutes per day, is associated with a significantly lower CVD risk regardless of body mass index. Mobile technologies such as smartphone physical exercise apps offer a potentially cost-effective platform for facilitating regular exercise, allowing individuals to set goals, receiving feedback on achievements and health information for facilitating regular exercise. "Zero-time Exercise" (ZTE) is a new concept for physical activities (PA) and exercise promotion and can easily attract attention especially when most people believe that extra time is needed to do exercise. ZTE can be done easily during most time of day, while sitting, standing, walking or waiting. These include simple movements, such as stretching and resistance (endurance) movements of the head, neck and shoulders, chest and abdominal muscles and the upper and lower limbs. When ZTE is integrated into daily life and sustained with increasing intensity, the effects could be substantial, especially for those who are sedentary and have difficulties to meet the minimal requirements of 150 minutes of at least moderate PA per week. The term is also intended to motivate people to start with simple exercises (the 'Foot-in-the-door' approach), change the mindset (that exercises need much time, money and sweats) and overcome the inertia from a sedentary lifestyle to become more active. It could also be a way to promote mental health (such as increasing happiness) through PA or exercises and enjoying the fun and satisfaction from the rapid improvements in fitness performances. Having brought some easily observable benefits quickly to those who are willing to try for a few days, ZTE might lead to more intensive or vigorous exercises requiring extra time for greater benefits. Objective: To test the feasibility [recruitment, dropout, and adherence to PA] of using whatsapp as an inertia reminder to promote the adherence of Zero-time Exercises (ZTE) in patients with CHD.
I. Study design: open/ blinded randomized, controlled study. II. Study setting and location: The study will be conducted in Abul Reesh Paediatric Hospital Faculty of Medicine /Cairo University from 2016-2018. III. Study population: This controlled open/blinded labelled randomized study is designed to include 40 children of both sexes scheduled for open-heart surgery for total correction of congenital heart diseases. IV. Eligibility Criteria: Inclusion criteria; 1. Paediatric patients of age group ranging from 6 months to 12 years . 2. Patients with complex congenital heart disease undergoing open heart surgery for total correction of the cardiac anomaly using cardiopulmonary bypass. Exclusion criteria; - Age less than 6 months or more than12 years. - Significant ventricular dysfunction (Ejection fraction < 40%). - Patients with pre-existing CNS disorders e.g.: seizures. - Patients with abnormal liver functions. - Pre-operative creatinine level >1.2 mg /dl. - Patients with history of diabetes mellitus. - Patients receiving NSAID for any reason. Study Protocol; The patients will be pre-medicated by atropine 0.01mg/kg, ketamine 0.03mg/kg and midazolam 0.02mg/kg IM, 30 minutes before induction of anesthesia. Standard ASA monitors, including electrocardiogram (ECG), pulse oximetry (Spo2), and non-invasive blood pressure cuff, and INVOS somatic oximeter probes will be placed on the renal area (on the back to the right or to the left from T10 to l2) will be placed on the patients before induction of anesthesia. Anesthetic technique will be standardized for all the patients in the form of inhalational induction using sevoflurane 6% in a mixture of oxygen and air (1:1) to be followed by placement of peripheral intravenous cannula. Intubation will be facilitated by pancuronium 0.01 mg/kg IV and ventilation will be controlled using pressure mode aiming to maintain PCO2 between (30-35 mmHg). Anesthesia will be maintained by mixture of 2% sevoflurane in 1:1 oxygen: air till time of CPB. A standard CPB technique will be used in all patients. Before aortic cannulation, patients will receive IV heparin 400 U.kg-1 aiming to produce ACT value > 400 sec. A membrane oxygenator (minimax plus ;Medtronics Inc.,Anaheim,CA) will be used during CPB. Priming solution in the form of isotonic saline solution supplemented with heparin added to fresh whole blood in appropriate amounts to achieve a hematocrit 20-25% during CPB will be used. Furosemide in a dose of 1mg .kg-1.min-1 will be given to all patients. Venting of left heart will be performed with a left atrial vent inserted through a small incision at the inter-atrial septum . Anesthesia during CPB will be given by Sevoflurane administrated via a vaporizer inserted into the oxygenator gas supply with a constant gas flow 3 liter.min-1. A non-pulsatile roller pump (model10.10.00;Stocket instruments ;Munich, Germany) will be used and the pump flow will be adjusted at 2.4 to 2.6 L/min /m2 during the normothermic period targeting mean arterial blood pressure between 40 and 60 mmHg. If the MAP will fall below 40 mmHg despite full perfusion pressure, a bolus dose of 0.01-0.1 ng /Kg phenylephrine will be given. If MAP increased above 60 mmHg, a continuous infusion of nitroglycerin at a dose of 1-2 µg.kg.min-1will be given. After application of aortic cross clamp and administration of cold cardioplegia solution (Saint Thomas cardioplegic solution, 20ml/Kg to be followed by doses of 10ml/Kg every 20 min.), time will be allowed to develop a stable level of perfusion pressure and moderate hypothermia (28°C-32°C). These variables will be kept constant for at least 10 minutes after initiation of full flow CPB and initiation of the study sequence. Thereafter, patients will be randomely allocated to DEX group (Group D n=20) receiving dexmedetomidine in a dose of 3 mcg/kg over 10 minutes to be followed by an infusion of 1 mcg/kg/hr to be continued until the first 6 postoperative hours.