View clinical trials related to Heart Diseases.
Filter by:This study is comparing the use of Kcentra vs. standard transfusion in patients undergoing heart transplantation surgery. Half of the patients will receive Kcentra, while the other half will receive fresh frozen plasma.
The study aim is to assess polyethylene glycol (PEG) coated collagen patch (Hemopatch) on the quality of drainage after surgery, the length of hospital stay, the number of reoperations due to haemorrhage and treatment cost. The study will be conducted in 200 patients undergoing Coronary Artery Bypass Grafting (CABG) with the use of extracorporeal circulation and Internal mammary Artery (IMA) harvesting. Traditional method of haemostasis will be applied in 100 patients and Hemopatch will be additionally used in 100 subjects to prevent haemorrhage after IMA harvesting and sternum closure.
Apply a new operation method of Left Internal Mammary Artery (LIMA)-Greater Saphenous Vein (GSV)-SCVBG to the treatment of patients with diffuse coronary artery disease,through clinical randomized controlled study,compared with patients of bilateral internal mammary artery (BIMA)-SCVBG and evaluate both of therapeutic effects and prognosis.
Women with heart disease are more likely to die or suffer another cardiac event or stroke within 5 years of an index event compared to men. They are also more likely to suffer depression and report lower quality of life. Cardiac Rehabilitation programs have been designed to address these issues, but most women do not attend. Women indicate they have a greater need to talk about their experiences with heart disease and seek social support to help them cope. Peer support, the assistance provided by other women with a similar illness experience, may be one way to enhance social support for women with heart disease and help them improve their psychosocial well-being. The Investigators have developed a peer support program called Women@Heart (W@H). The program is led by trained peer leaders (women who themselves have made a successful recovery from a heart event). A pilot test of the program showed promising results. The Investigators now need to conduct a more rigorous evaluation of the program. The main objective of this project is to determine if the W@H program helps women to improve their psychosocial well-being compared to being on a waiting list to participate in the program. It will also examine the effect of the program on: health behaviours (tobacco smoking, physical activity, sedentary behaviour, fruit and vegetable consumption, and medication adherence); coronary risk factors; and clinical outcomes (re-hospitalization, health care system use, death).
Many conditions affecting health are caused by a combination of environment, behaviors, and genes. While individuals can alter some factors in their lives to reduce the chances of developing different diseases (e.g., not smoking cigarettes), the contribution from genetic risk encoded by DNA remains with people throughout their lives. Scientists are still trying to determine the entirety of genetic factors that influence disease, but for some conditions it has been shown that the factors identified thus far can begin to identify people at high to low genetic risk. Looking across the genome, scientists can calculate a cumulative genetic risk score - which can be used to rank genetic risk compared to other worldwide populations. The goal of this study is to determine how genetic risk influences health decisions and other things that can be controlled in life. The first genetic risk score is calculated for coronary heart disease (CAD). CAD ultimately leads to heart attacks, heart failure and sometimes sudden cardiac death and is the main reason heart disease remains as the number one cause of death worldwide. Other researchers have shown that this genetic risk score can be used to identify people with low, intermediate, and high risk for coronary heart disease. It has also been shown that the use of statins (cholesterol lowering drugs) provides greater benefit and protection against heart attack for people with high genetic risk for coronary artery disease. Leveraging the Apple ResearchKit and the ResearchKit linked 23andMe API, customers of 23andMe are able to provide researchers access to their genomic data. Participants will use the ResearchKit app to provide consent, view study information, answer surveys, and contact the study team. Participants will be asked to complete 3 surveys. One before viewing genetic risk scores, one immediately after viewing scores, and one 6 months after viewing scores.
Advances in paediatric cardiology and cardiac surgery have enabled the survival of most patients born with congenital heart disease (CHD) into adulthood. Many CHD patients have undergone palliative or reparative surgery earlier in life. As patients survive into adulthood, they may need intervention or surgery for residual haemodynamic lesions. This is because they are at risk of arrhythmias secondary to structure heart disease and are susceptible to acquired heart disease. In these patients, pre-operative and post-operative evaluation of right ventricular (RV) structure (shape and volume) and function is an essential component of clinical management. Advances have been made in cardiac imaging so that accurate assessment of the right heart chamber in terms of its structure, function and physiology is possible. However, this technology has as yet never been applied in an effort to comprehensively assess RV structure, function and physiology. Cardiac Magnetic Resonance (CMR) will be used in this comprehensive assessment of structure and function. Thus, this research will allow development of a comprehensive integrated biomedical engineering (BME) R&D platform for in-depth study and clinical diagnosis of the RV structure-function relationship and physiology and its association with biomarker, and exercise capacity in CHD.
Ischemic Heart Disease (IHD) is a condition of recurring chest pain or discomfort that occurs when a part of the heart is not receiving sufficient blood flow. It is a major public health concern internationally and in Singapore, the leading cause of death from cardiovascular disease. Cardiovascular magnetic resonance (CMR) has the ability to assess heart structures, scarring or lack of blood supply to the heart muscle with great accuracy and without any radiation involved. A CMR-compatible cycle ergometer can offer a safe and low cost stress equipment to assess heart function and motion abnormalities, and restrictions of the blood supply to the heart tissues due to partial or complete blockages of the blood vessels. This study aims 1. to develop an exercise-CMR stress protocol by testing its feasibility and robustness in assessing changes in cardiac volumes and function due to physical exertion in healthy individuals and 2. to assess the accuracy of the multiparametric stress-CMR as a diagnostic tool for ischemic-causing coronary artery disease (CAD) with coronary fractional flow reserve (FFR) as a reference. 3. to measure the overall economic impact of ischaemic heart disease by estimating the direct and indirect medical costs for each participant. The current sample costs will be extrapolated to estimate the annual costs of treating and managing ischaemic heart disease in the local population. 4. to evaluate the effects of coronary microvascular dysfunction on coronary flow and regulation, physiological response and cardiac sympathetic signaling in patients with chest pain.
The registry for the improvement of postoperative outcomes in cardiac and thoracic surgery aims to prospectively collect data in order to test the association between various preoperative and per-operative variables ; and several postoperative outcomes such as mortality, shock, redo surgery, sepsis and extracorporeal life-support.
Congenital heart disease (CHD) affects approximately 1% of newborns in the US, with 25% of those affected having critical conditions requiring open heart surgery within one year of birth. Surgical and medical advances have allowed many patients to live beyond their fourth and fifth decades of life. Unfortunately, cardiac arrhythmias are a relatively common sequela due to cardiac anomalies and surgical scars in addition to residual volume and pressure load on the heart. Atrial arrhythmias, including sinus node dysfunction and intra-atrial re-entrant tachycardia (IART) are among the more common abnormalities found in adults with repaired CHD. The presence of IART significantly increases morbidity and mortality, and anti-arrhythmic medications have been shown to be a sub-optimal treatment strategy with the majority of patients requiring multi-drug therapy. Catheter ablation procedures remain a treatment option, but are less successful for some patient demographics. In the mid-1990's, pacemakers with atrial anti-tachycardia pacing (ATP) capabilities were developed, primarily for the management of atrial flutter and fibrillation in adults with structurally normal hearts. Given the need for pacemakers in the CHD population to manage sinus node dysfunction and atrioventricular node conduction block, the adoption of atrial anti-tachycardia pacemakers began to gain favor. However, there is limited data available comparing the safety and effectiveness of ATP therapy between various demographics of CHD patients. In the current study, the investigators aim to determine if ATP is an effective treatment strategy for IART, specifically within particular sub-populations of CHD patients. Additionally, investigators hope to delineate any significant differences in efficacy of ATP treatment between adult and pediatric congenital heart patients. The research team will accomplish our goals with a retrospective, multi-center study in which data is collected from existing electronic medical records and pacemaker interrogations. Following data collection, the investigators will employ statistical analyses to determine if certain CHD demographics are statistically significant predictors of ATP therapy outcomes. The purpose of this prospective/retrospective study is to determine how effective atrial anti-tachycardia therapies are with the congenital heart patients who are known to have atrial arrhythmias. As this population ages, we know that arrhythmic burden increases and medications are increased or changed for symptomatic improvement. Patients will be enrolled at the time of anti tachycardia device (ATD) placement or when device therapies are turned on. Patients will need a minimum of 5 years of clinical history prior to implantation and after implantation (unless patient is very young). Data will be collected both retrospectively and prospectively. The research team will consent patients at the time of clinical evaluations and scheduled follow-ups (usually 3 - 6 months). If therapy is effective, investigators will determine the specific programming which was successful. If therapy was ineffective, investigators will also determine if a change in programing was made and if this improved ATP efficacy. Investigators will also determine the arrhythmia burden. Cardioversion and medications before and after ATD implantation will be the key determinants of arrhythmia burden in this study.
The impact of frailty on immediate and long term outcomes of invasive treatment of coronary artery disease is not fully characterized. The assessment of frailty may help physicians in the selection of best treatment option and in the timing and modality of the follow-up. The FRAilty syndrome in daily Practice of Interventional CArdiology ward (FRAPICA) study is designed with the aim to validate the use of the Fried frailty scale and instrumental activities of daily living scale (IADL) as prognostic tools in patients admitted to hospital for symptomatic coronary artery disease, either stable, unstable, or acute coronary syndrome (ACS). The FRAPICA study is a single center prospective study enrolling patients aged ≥65 years. The aims are (1) to describe Fried frailty scale and IADL scale distribution before hospital discharge and (2) to investigate the prognostic role of Fried frailty and IADL scores. The outcomes are: (1) results of invasive treatment, (2) its complications (periinterventional MI, contrast-induced nephropathy, blood loss), (3) three-year all-cause mortality, cardiovascular mortality, stroke, myocardial infarction, reintervention, heart failure, hospital readmission for any cause, and a composite of the above mentioned. Ancillary analyses will be focused on different clinical presentations, different tools to assess frailty and risk stratification. The FRAPICA program will fill critical gaps in the understanding of the relation between frailty, cardiovascular disease, interventional procedures and outcome. It will enable more personalized risk assessment and identification of new targets for interventions.