View clinical trials related to Coronary Artery Disease.
Filter by:This three-year, grant funded project will be conducted by the Division of Clinical Informatics in the Department of Community and Family Medicine at Duke University Medical Center. The project seeks to improve care quality and safety in an ambulatory care setting through clinical decision support for evidence-based (EB) pharmacotherapy delivered as point-of-care reports to clinic-based practitioners and as population health-based alerts to care managers. This project will build upon a regional Health Information Exchange (HIE) network created to connect providers serving 37,000 Medicaid beneficiaries from both rural and urban settings in a 5 county region in the Northern Piedmont of North Carolina. This network includes 16 private practices, 3 federally qualified health centers, 5 rural health centers, 3 urgent care facilities, 10 government agencies, 5 hospitals, and 2 cross-disciplinary care management teams. The proposed information system will be based on an emerging standard for decision support and will utilize routinely available claims and scheduling data in order to serve as a replicable model for broader use of decision support for medication management. Increased availability and use of decision support tools for medication management can be expected to reduce medication errors, improve health care quality at an acceptable cost, and augment disease management for patients and populations.
Main purpose of the study: To comparatively assess the diagnostic performance of non invasive anatomical and functional imaging modalities to detect significant obstructive coronary artery disease as demonstrated at invasive coronary angiography and functional evaluation of coronary lesions (fractional flow reserve).
The DAPT Study is a double blind randomized controlled trial intended to determine the appropriate duration for dual antiplatelet therapy (the combination of aspirin and a second anti-clotting medication) as well as the safety and effectiveness of dual antiplatelet therapy to protect patients from stent thrombosis and major adverse cardiovascular and cerebrovascular events (MACCE) following the implantation of drug-eluting coronary stents. Similar analysis will be conducted in a smaller cohort of bare metal coronary stent - treated subjects.
The purpose of this study is to determine how well perfusion cardiac magnetic resonance (MR) imaging is able to detect certain heart abnormalities, such as a coronary artery narrowing. To this purpose, a conventional MR contrast medium (Gd-DTPA-BMA) will be used during an adenosine infusion (an approved substance which enlarges the arteries of the heart, so that the blood flow to the heart muscle increases). This magnetic resonance imaging technique will be compared with single photon emission computed tomography (SPECT), a well-established technique to detect this heart abnormalities. Both, cardiac MR and SPECT will be compared with invasive coronary angiography, a technique which directly visualized the heart vessels and narrowings of these (=standard of reference).
The purpose of this study is to compare pharmacologic stress myocardial perfusion PET with pharmacologic stress myocardial perfusion SPECT in a near-simultaneous, head-to-head comparison in the same patient. The investigators hypothesize that pharmacologic stress myocardial perfusion PET will prove superior to pharmacologic stress myocardial perfusion SPECT as a first-line diagnostic test for higher-risk patients with known coronary artery disease (CAD) who present with symptoms consistent with possible worsening of their CAD.
The randomized comparison of two strategies in coronary revascularization: bypass surgery without the use of a heart lung machine and coronary stenting procedure. The comparison comprised the occurrence of cardiac adverse events after the procedure. In addition, costs, cognitive outcomes and angiography were assessed.
Two consecutive cohorts of subjects were each treated with the CoStar stent loaded with a different paclitaxel dose regimen. The first 145 subjects (Arm I), enrolled between 20 January 2004 and 26 May 2004, were treated with 10 µg paclitaxel and the subsequent 137 subjects (Arm II), enrolled between 15 December 2004 and 9 March 2005, were treated with 30 µg paclitaxel. Both dose formulations eluted over 30 days (in-vitro). Subjects in both arms completed clinical follow-up at 1, 6 and 12 months post-index procedure, with angiographic follow-up at 6 months as outlined in the original study protocol. Based on results from previous studies and the initial EuroSTAR Trial results, Conor Medsystems decided to pursue the dosage used in Arm I, 10 μg/30 days, as the commercial dose formulation for the CoStar® stent. The EuroSTAR Trial addendum was proposed for the purpose of evaluating the long-term clinical outcomes of the CoStar stent.
The aim of the study is to investigate the effects of CYP3A polymorphisms on the pharmacokinetics of Atorvastatin in Chinese subjects with coronary heart disease.
The primary objective of this study is to determine the diagnostic efficiency and accuracy of using the StentOptimizer. The ability of StentOptimizer to influence post deployment treatment strategy will be assessed and compared to the IVUS system. In addition, the correlation of diameter measurements between the StentOptimizer, IVUS and 2D QCA will be assessed. The StentOptimizer software, IVUS and 2D QCA were all part of the clinical procedure outside the study. The analysis of post deployment treatment decisions and diameter measurements using those modalities retrospectively make this an observational study.
This study will be co-ordinated by Dr Hector Chinoy, Dr Robert G Cooper (Salford Royal NHS Foundation Trust / The University of Manchester) and Dr Ian N Bruce (Central Manchester University Hospitals NHS Foundation Trust/ The University of Manchester). An initial pilot study will be completed, to establish proof of concept of the study and to examine whether trends may observed of differences between cases and controls. Twenty five prevalent UK Caucasian adult IIM cases, confirmed by internationally accepted criteria, will be recruited via the Adult Onset Myositis clinic, Salford Royal NHS Foundation Trust. Age, gender and race-matched controls will be recruited on a 'best friend' system. At the Wellcome Trust Clinical Research Facility (WTCRF), The University of Manchester, facilities are already available for B-mode ultrasound CIMT measurement, Endo-PAT, lean body mass measurement and contrast echocardiography. Cases and controls will have their cardiovascular risk factors assessed using a standardised questionnaire and blood tests. Further tests performed will include blood pressure, electrocardiogram, lean body mass, B-mode ultrasound CIMT measurement and Endo-PAT. IIM cases will have additional blood tests and a clinical assessment to assess their disease status, and contrast echocardiography. As part of a linked study, subjects (but not controls) will also have Gd-DTPA-MRI of the heart performed.