View clinical trials related to Coronary Disease.
Filter by:The purpose of this study is to compare the response to aspirin in the acute phase with the late phase of an acute coronary syndrome.
Cardiovascular disease (CVD) is the leading cause of Taiwan. L-carnitine (LC) and coenzyme Q10 is recognized as lipid soluble antioxidants. The purposes of this study are going to investigate the relation of LC and coenzyme Q10 with the markers of lipid peroxidation, antioxidant enzymes activities, and the inflammatory markers in coronary artery disease (CAD) patients. The study is designed as a three-year study. The first year is an observation study. We will recruit CAD patients who are identified by cardiac catheterization as having at least 50% stenosis of one major coronary artery, and age-gender matched healthy subjects. The concentrations of LC, coenzyme Q10, lipid peroxidation markers (TBARS and ox-LDL), antioxidant enzymes activities (catalase, glutathione peroxidase, glutathione reductase, and superoxide dismutase), and inflammatory markers are going to analysis. The second year is a single-blind, single dose intervention study. CAD subjects are recruit form the first year and randomly assigned to placebo, coenzyme Q10-150 (150 mg/d), coenzyme Q10-300 (300 mg/d), LC-1000 (1000 mg/d) or LC-2000 (2000 mg/d) groups. Intervention is going to administration for three months. Fasting blood will be obtained in each month and determine the concentration of LC, coenzyme Q10, lipid peroxidation markers, antioxidant enzymes activities, and inflammatory markers after intervention. The third year is a single-blind, multiple doses intervention study. We are going to measure the CAD subjects from the second year intervention study. After three months washout period, the subjects are assigned to placebo, coenzyme Q10-150 plus LC-1000, coenzyme Q10-150 plus LC-2000, coenzyme Q10-300 plus LC-1000, and coenzyme Q10-300 plus LC-2000 groups. Intervention is going to administration for three months. Fasting blood will be obtained in each month and determine the concentration of LC, coenzyme Q10, lipid peroxidation markers, antioxidant enzymes activities, and inflammatory markers after intervention. Hopefully, the results of this study could provide information of LC and coenzyme Q10 supplementation for clinical dietitian in advising CAD patients.
The recently introduced Computed tomography (CT) scanner, Discovery CT750 HD (GE Healthcare, Milwaukee), incorporates a battery of innovations aimed at improving diagnostic image quality, evaluating perfusion and assessing for scar, in an effort to address the current shortcomings of Computed tomographic coronary angiography (CTCA) in patients with significant coronary artery disease. The new scanner will use a novel method of scanning (Cardiac Gemstone Spectral Imaging - Cardiac GSI) and image reconstruction (Adaptive Statistical Iterative Reconstruction- ASIR) as opposed to standard definition 64-slice CT Multi-detector row computed tomography(MDCT)and Filtered Back Projection (FBP) used by the conventional CT scanners. The Cardiac GSI protocol enables the scanner to acquire images at two different x-ray energies almost simultaneously, which can be post-processed to selectively reduce beam hardening artefacts and delete materials with specific attenuating properties from the images, such as coronary calcium. ASIR offsets the potential increase in radiation dose required for Cardiac GSI scanning. This will potentially result in images of higher diagnostic quality with an equivalent or perhaps lower dose of radiation compared to present technology. Furthermore, it is hypothesised that dual-energy acquisition may improve the accuracy of the assessment of perfusion. Although initial in-vitro results are encouraging, this technology has not been rigorously assessed with regards to its feasibility and diagnostic quality, limiting its applicability in routine clinical practice. This assessment will require a trial comparing the accuracy of Cardiac GSI CTCA with that of Invasive coronary angiography (ICA) for anatomical assessment of stenosis, Myocardial Perfusion Imaging with Single Photon Emission Computed Tomography (MPI-SPECT) for assessment of perfusion and Cardiac Magnetic Resonance (CMR) for assessment of myocardial scar. We have designed a pilot study in this regard which will help us assess the feasibility of the scan protocol and provide data to power a larger study to assess the diagnostic remit of Cardiac GSI scanning in the assessment of patients with high-risk of significant coronary artery disease and myocardial scar.
This study is being done to determine if Ranolazine treatment improves coronary microcirculation function among patients with coronary microcirculation dysfunction. We are also looking to learn if symptomatic improvement of chest pain during treatment with Ranalozine is related to improved coronary microcirculation function.
This clinical trial is examining the role of genetic polymorphism on the effect of clopidogrel (with or without aspirin) on platelet response in persons at high-risk for myocardial infarction or stroke due to family history of early-onset coronary artery disease.
To determine the effectiveness, safety, and cost efficiency associated with a CCTA-guided selective catheterization strategy for stable patients but without known CAD and an American Heart Association/ American College of Cardiology Class II indication for non-emergent invasive coronary angiography.
The aim of the study is to test the accuracy of Regadenoson to induce maximal and steady state hyperemia as compared to central venous infusion of adenosine for assessing fractional flow reserve. (adenosine is considered to be the gold standard)and to investigate the time intervals of maximum hyperemia induced by centrally and peripherally administered Regadenoson.
The purpose of this project is to see if heritable alterations in the function, biology and vascular repair capacity of vascular cells make a major contribution to the burden of coronary artery disease (CAD), fibromuscular dysplasia (FMD), and other vascular diseases. In more detail, FMD is a nonatherosclerotic vascular disease that primarily affects women aged 20 to 60. It commonly affects the renal and carotid arteries but may involve almost every artery in the body. At the cellular level, FMD is characterized by increased fibroblast proliferation and collagen deposition. This study aims to define some of these cellular problems by directly studying fibroblast cells from FMD patients and healthy control subjects. Similarly, CAD is among the leading causes of death worldwide. However, a large part of the risk for CAD is unexplained. It is thought that a major but undefined risk factor may be gene (genomic) variations causing a change in vascular cell function. Here, we will study important vascular cell types in patients with severe and early onset CAD in an attempt to define these problems. Therefore, in summary, this study will look to define the various cellular-level problems that occur in patients with both in CAD and FMD. These data will be linked to DNA-level analyses to ultimately attempt to define the cause of these conditions.
This is a prospective, multicenter, historical controlled study. The present clinical study will measure non-inferiority of 12 month TLF rate compared to historical control.The selected historical control is the Xience V arm from RESOLUTE All-Comer clinical study, that study is a prospective, multicenter, randomized, two-arm, international, open-label study.The historical control did not have angiographic follow up before 12 months, in the present clinical study, only subjects with clinical follow-up conducted at 12 months without any pre-specified angiographic assessment prior to 12 month clinical follow-up will be part of this analysis cohort. Out of the total 1200 patients, 900 patients (clinical follow-up cohort) will be included in this analysis cohort.
This study is a Phase I, intravenous, single-dose escalation study to evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of PZ-128 (pepducin inhibitor of PAR1) in subjects with vascular disease or who have 2 or more coronary artery disease (CAD) risk factors.