View clinical trials related to Coronary Artery Disease.
Filter by:In patients with chronic stable coronary artery disease (CAD), percutaneous coronary intervention (PCI) targets hemodynamically significant coronary lesions, i.e., those thought to cause inducible ischemia. The hemodynamic severity of a coronary stenosis increases with its tightness and with the myocardial mass of viable myocardium downstream of the stenosis. Compared to the traditional anatomic angiographic approach, assessment of functional relevance by fractional flow reserve (FFR) during coronary angiography has been suggested to improve patient outcomes. Fractional flow reserve (FFR) is based on determination of the coronary perfusion pressure downstream of a stenosis during pharmacologic hyperemia. However, FFR relies on oversimplified physiologic concepts, which limits its usefulness in defining a true ischemic threshold. Furthermore, visual angiographic assessment continues to dominate the treatment decisions for intermediate coronary lesions. Conversely, the intracoronary ECG (icECG) provides an inexpensive, sensitive and direct measure of myocardial ischemia. The icECG is easily acquired by attaching a reusable alligator clamp to a conventional angioplasty guidewire (at one tenth the price of a pressure sensor guidewire). The coronary guide wire positioned downstream of a coronary stenosis then acts as the exploring electrode. During pharmacologic stress, the icECG can provide direct evidence for regional myocardial ischemia to define the ischemic threshold in different types of coronary artery disease.
Mental stress-induced myocardial ischemia(MSIMI) has been recognized a significant clinical problem. Evidence has shown that individuals with MSIMI have 2 to 2.5 times higher risk to develop a major averse cardiovascular events over 3-5 years, compared to their counterparts who have no MSIMI. Nevertheless, investigations into the study of MSIMI among women who have chest pain but artery stenosis < 50% have been lacking. In this project, the investigators used positron emission tomography (PET) to evaluate perfusion defect during mental stress to diagnose MSIMI. Women with chest pain and coronary artery stenosis < 50% were included as the experimental group, age-matched healthy people as the control group, the aim of this study is to compare the incidence of MSIMI in the two groups. At the same time, the study also observe the change of MBF during mental stress and the relationship between MBF and MSIMI.
Cardiac CT allows the assessment of the heart and of the coronary arteries by use of ionising radiation. Although radiation exposure was significantly reduced in recent years, further decrease in radiation exposure is limited by increased image noise and deterioration in image quality. Recent evidence suggests that further technological refinements with artificial intelligence allows improved post-processing of images with reduction of image noise. The present study aims at assessing the potential of a deep-learning image reconstruction algorithm in a clinical setting. Specifically, after a standard clinical scan, patients are scanned with lower radiation exposure and reconstructed with the DLIR algorithm. This interventional scan is then compared to the standard clinical scan.
RESILIENT is a phase II, multi-center, prospective, pragmatic randomized clinical trial with blinded assessment of the primary endpoint. This study aims to evaluate whether mHealth-CR improves functional capacity in older adults (age ≥65) with IHD compared with standard traditional cardiac rehabilitation care. A total of 400 eligible patients will be randomized in 3:1 manner to mHealth-CR versus usual care for assessment of primary endpoint. Enrollment will occur over approximately 42 months with an expected minimum of 3 months follow-up per participant.
This is a multicenter, prospective, randomized, blinded, controlled clinical study in patients with planned primary valvular surgery and comorbid coronary artery lesions with diameter stenosis of ≥ 50%, to compare the effectiveness of an Quantitative Flow Ratio (QFR)-guided revascularization strategy and a coronary angiography (CAG)-guided revascularization strategy in preventing the incidence of composite outcome (MACE-5, including all-cause death, myocardial infarction, stroke, unplanned coronary revascularization, and new renal failure requiring dialysis) within 30 days after surgery. The study hypothesis is that the QFR-guided strategy can reduce the incidence of the MACE-5 within 30 days after surgery, as compared with the CAG-guided strategy.
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.
The study plans to learn if sending different text messages, serving as reminders or encouragement, may help patients take their medication more often if they have had trouble keeping up with their medicines.
The cost of medical care in the United States far exceeds that of all other advanced economies and continues to accelerate at a rate unacceptable to our society, due primarily to the high costs of new imaging technologies and novel drugs (1). Cardiac positron emission tomography (PET) imaging is a powerful new modality for the non-invasive detection of provocable coronary ischemia in patients with low to intermediate-risk chest pain or its equivalent. Intermountain Medical Center (IMC) is performing approximately 6000 clinical cardiac PET scans annually. However, cardiac PET scans are expensive (i.e., billed at >$5,000/scan, average receivable revenue $1500-$2000/scan). Coronary artery calcium (CAC) is a sensitive marker of coronary atherosclerosis. A CAC scan (CACS), performed by multislice computed tomography (CT), is a relatively inexpensive (~$70-$150/scan), low-radiation dose test that marks the presence of coronary atherosclerotic plaque. The absence of CAC has been shown to be associated with very low coronary risk. ACCURATE will test whether a CAC-first strategy (i.e., risk stratification, when CAC ≤ 1, to medical management or to cardiac PET stress testing), performed routinely in symptomatic patients presenting for evaluation of possible coronary artery disease (CAD) prior to the cardiac PET stress test, can be used as a gatekeeper for progression to the expensive rubidium-PET stress (regadenoson) perfusion scan and be a major cost-saver without adversely affecting patient care or outcomes. Routinely, qualifying patients undergo CACS when they present for evaluation of possible but unknown CAD status and are referred for cardiac PET stress testing. In ACCURATE, those with CACS≤1 will then be consented and randomized to either a cardiac PET stress test strategy or a non-PET-driven medical care strategy. Subjects randomized to the cardiac PET stress test strategy will receive appropriate subsequent care depending on the outcome of the cardiac PET scan (i.e., depending on whether ischemia is present or not). Subjects randomized to the CAC-only arm will receive appropriate non-PET driven medical clinical management and follow-up. All participating subjects' electronic medical records will be reviewed indefinitely for clinical outcomes. Initial outcomes will be reported at 1-year, 2-years, and 5-years, with future analyses to be determined by the study investigators. The objective of this study is to test the hypothesis that PET stress test strategy will results in a decreasing in major adverse cardiac endpoint without exceeding $100,000 per quality-adjusted life year compared to a CAC-first strategy for screening suspected/possible coronary artery disease.
Prospective, multicenter, randomized, double-blind, placebo-controlled trials.
This single-center clinical trial is designed to evaluate the CardioFlux magnetocardiograph diagnostic imaging system to predict major adverse cardiac events (MACE) in patients referred for evaluation for coronary artery disease.