View clinical trials related to Coronary Disease.
Filter by:The primary objective of this study is to build a repository of resting cardiac phase space signals from eligible subjects using the Phase Signal Recorder (PSR) prior to coronary angiography for the purposes of machine-learning and testing algorithms developed by Analytics 4 Life. Male and Female subjects will be uniquely and consecutively enrolled into one group to support populating a repository of phase signals.
A retrospective cohort study was performed in patients with angina pectoris who were treated with oral Chinese patent medicine and Western medicine.The hospital's medical record management system was used to collect symptoms of angina pectoris, dose and frequency of nitroglycerin use, clinical biochemical test and imaging examination.To explore the clinical efficacy of Chinese patent medicine in the treatment of coronary heart disease with angina pectoris, and provide reliable data support for its clinical application.
A prospective cohort study was performed in patients with angina pectoris who were treated with oral Chinese patent medicine and Western medicine.Collect primary and secondary efficacy indicators such as the incidence of cardiovascular events, using clinical samples to detect genomics, proteomics, metabolomics, intestinal flora and sclerotia.To explore the clinical efficacy of Chinese patent medicine in the treatment of coronary heart disease with angina pectoris, and provide reliable data support for its clinical application.
Preliminary experiences show that IVL is promising for achieving an effective plaque modification at time of PCI. However, uncertainty about the optimal tool to select in case of calcification of coronary lesions exists, as no randomized comparisons between rotational atherectomy and intravascular lithotripsy have been carried out so far. The aim of this pilot randomized trial is to evaluate the efficacy and safety of intensive plaque modification with rotational atherectomy vs. intravascular lithotripsy before placement of a drug-eluting stent.
Ischemic heart disease is one of the most important causes of mortality and morbidity in the Western world and is a public health problem. Among ischemic heart diseases, myocardial infarction has specific significance because the cardiac muscle does not have sufficient and adequate capacity to regenerate; therefore, necrosis of a region leads to the formation of a fibrous scar. Infarction can lead to a progressive and irreversible decrease in cardiac function, resulting in heart failure (HF) syndrome, depending on the area affected by this scar, via a ventricular remodeling mechanism. In recent years, HF has been revealed as a major public health problem due to its incidence and its social, economic and especially human impact, as it represents a serious limitation of the quality of life of individuals. The prevalence of HF in the general population of the United States and the United Kingdom is approximately 1%, and in those older than 75 years, the prevalence varies between 5 and 10%. Regarding its prognosis, recent data from the Framingham Study indicate that at 5 years, the mortality rate of HF is 75% in men and 62% in women; the mean mortality rate of all cancers is 50%. The molecular basis of congestive HF is the absence of cardiac cells capable of regenerating the heart muscle. Despite the publication of recent studies suggesting the existence of stem cells capable of regenerating cardiomyocytes destroyed because of myocardial infarction, in humans, the capacity of these cells is insufficient to replace the cells destroyed due to necrosis secondary to ischemia. In recent years, the accumulation of results derived from preclinical studies has allowed the development of the first clinical trials of the feasibility and safety of cardiac regeneration using cellular therapy. Several studies have shown that t cells exist in adult bone marrow, such as mesenchymal stem cells, hematopoietic stem cells and, more recently, multipotent stem cells (MAPC), with the ability to differentiate into endothelial tissue and cardiac muscle, which can contribute to the regeneration of damaged myocardial tissue and improve cardiac function in animal infarction models. However, cell therapy research has moved rapidly toward the use of more undifferentiated cells rather than hematopoietic lineages, such as mesenchymal cells. These cells can be obtained from different sources, with a tendency toward the use of characterized allogeneic cells, which are immediately available in the potential recipient. Given that this type of therapy has not been rigorously investigated in Latin America, we aim to determine the effect of therapy using Wharton's jelly-derived mesenchymal cells (WJ-MSCs) from the human umbilical cord on neomyogenesis in patients with previous myocardial infarction who are undergoing open revascularization. Our hospital has some experience with regenerative therapy, both in patients with acute myocardial infarction and chronic infarction, with encouraging results that support this new phase of inter-institutional research. Objective: To evaluate the safety and estimate the effect of coronary revascularization accompanied by intramyocardial injection of WJ-MSCs and the placement of an extracellular matrix patch seeded with WJ-MSCs compared to coronary revascularization accompanied by injection of culture medium without the presence of WJ-MSC and placement of an extracellular matrix patch without seeding with WJ-MSC on global and regional cardiac function, myocardial viability and the incidence of adverse effects determined as ventricular arrhythmias.
Atherosclerosis is a disease of the arteries and is the result of various factors such as high blood cholesterol or diabetes, which lead to accumulations of fats, cells, and calcium deposits (i.e. plaques). It has been shown that people with a rapid increase in the amount of calcium deposits have a higher risk for stroke and heart attack than people with a decreased amount. Previous scientific research has shown that a protein called Matrix Gla Protein plays an important role in the prevention of calcification. This protein works well only if there is enough Vitamin K in the blood vessels. In a large human studies, it has been shown that especially MK-7 (a form of Vitamin K2) is best absorbed by blood vessels. Moreover, studies suggest positive effects of vitamin D (especially D3) on vitamin K-dependent metabolism. Over the last years, fluorine-18 sodium fluoride (18F-NaF) positron emission tomography (PET) emerged as a reliable clinical imaging tool able to detect micro-calcification in the blood vessels. Therefore, the present study will use 18F-NaF PET in combination with magnetic resonance imaging (MRI) to assess the influence of vitamin K and D supplementation in the development of arterial micro-calcification in the context of atherosclerosis. The present study would like to confirm that MK-7 and vitamin D3 supplementation induces a significant reduction in the degree of micro-calcification from carotid artery disease patients, when comparing to a placebo, after 3 months. This will be a prospective double blind randomised controlled feasibility study, in which one group will receive a MK-7 and vitamin D3 supplementation compared to a control group receiving a placebo.
The study aims to evaluate the decision-making pathways of interventional cardiologists, when assessing patients, presented with stable coronary artery disease.
Combined antiretroviral therapy (cART) is thought to promote coronary artery disease via a number of mechanisms: abnormal lipid profiles, endothelial dysfunction, hypertension, insulin resistance and renal impairment are the main pathological mechanisms driving atherosclerosis as a consequence of cART. An association between protease inhibitors and increased cardiovascular disease risk has been shown in many large cohort trials. CT Coronary Angiography (CTCA) is now widely used to assess for the presence of atherosclerosis, typically in patients presenting with chest pain. This imaging technique allows visualisation of the coronary arteries and quantification of any atherosclerotic disease that may be present. This technique is being increasingly used as a surrogate for cardiovascular disease risk. HART CT is an open label, prospective, randomised-control pilot study to investigate the feasibility of performing a future appropriately powered multi-centred randomised control trial using CT based outcome data as a surrogate for cardiovascular disease risk. Participants will be randomised to either continue their usual cART or switch to Biktarvy (a fixed dose combination of bictegravir, emtricitabine and tenofovir alafenamide). A baseline CT scan will be performed. If there is any evidence of atherosclerosis a further CT scan will be performed at the end of the study (approximately 48 weeks). This will allow quantification of any change in coronary artery plaque burden or characteristic. Participants will be also followed up for any changes in metabolic health.
CT myocardial perfusion imaging (CTP) represents one of the newly developed CT-based techniques but its cost-effectiveness in the clinical pathway is undefined. The aim of the study is to evaluate the usefulness of combined evaluation of coronary anatomy and myocardial perfusion in intermediate to high-risk patients for suspected CAD or with known disease in terms of clinical decision-making, resource utilization and outcomes in a broad variety of geographic areas and patient subgroups.
Percutaneous coronary intervention is a safe procedure. However, its execution is manual, fully operator-dependent. The procedure is also associated with radiation exposure to patients and physicians. This study will evaluate the robotic assisted percutaneous coronary intervention as an alternative to manual operation.