View clinical trials related to Coronary Stenosis.
Filter by:This study will enroll patients who are referred for coronary angiography and require physiological assessment to see if the lesion can be treated as per the local standard of care. Approximately 92 participants will be enrolled. There are no follow up visits required so participation in this study will end when subjects are discharged from the hospital.The study will be comparing the resting flow reserve against the instantaneous wave-free ratio (iFR) and fractional flow reserve. All these tests offer a way to image a legion and determine if it is suitable to be treated. FFR measures the pressure differences across (narrowed coronary arteries usually due to atherosclerosis), iFR's are performed during cardiac catheterisation (angiography) using invasive coronary pressure wires which are placed in the arteries of the heart that are to be assessed and the Resting flow reserve looks at the maximum increase in blood flow through the coronary arteries above the normal resting volume.
Prospective, multi-center observational study to be conducted in up to 30 French interventional cardiology centers. The purpose of this observational study is to capture, in French Centers, clinical data of the BioMatrix Flex™ and BioMatrix NeoFlex™ Drug Eluting Coronary Stents System (Biolimus A9, BA9™-) in normal practice, in patients treated with 6-month DAPT, and to compare the outcomes to those of previous e-biomatrix registries with longer DAPT durations. The patients will be followed up for 2 years for data collection.
Drug-eluting stent (DES) has been the primary choice for in suit coronary lesions treatment. In comparison to bare-metal stent (BMS), it evidently decreases the rate of restenosis. However, in recent years in-stent restenosis or thrombogenesis caused by acquired stent malapposition in the late stage or by new in-stent atherosclerotic plaques was oberved, which possibly was associated with chronic inflammation stimulation because of residual intravascular metal or polymer coating. Through being expanded around 30 to 60 seconds, drug-coated balloon (DCB) can ensure adequate paclitaxel enter the artery wall, which can inhibit smooth muscle cells hyperplasia without remaining any foreign body. In recent small sample trials, they showed that sole DCB treatment had a good long-term effect when pre-treating ideal in suit coronary lesions (defined as residual stenosis< 30%, without dissection severer than type C, anterograde flow TIMI III). In PEPCAD I trial, the rate of major adverse cardiovascular events (MACE) was 6.1% in the first 12 months and persistent to 3-year follow up. Small sample prospective observational study from Korea, like Shin, showed that in the in suit coronary lesions with the fractional flow reserve (FFR)>0.85 after percutaneous transluminal coronary angioplasty (PTCA), the FFR kept unchanged in the 9-month follow up after DCB treatment and there was not MACE happened. However, so far randomized controlled trials with large sample to confirm their non-inferiority compared with DES when treating relatively larger in suit coronary lesions are lacked. Meanwhile, a number of doctors worried about acute cardiovascular occlusion and long-term restenosis. In this study, we assume that in the in suit coronary lesions with FFR>0.85 after PTCA pre-treatment, DCB treatment is not inferior to DES treatment regarding to middle- and long-term functional recovery.
Randomised controlled trials (RCTs) have shown high long-term patency for no-touch saphenous vein grafts (NTSVGs), comparable to the internal thoracic artery in on-pump coronary artery bypass grafting (CABG). RCTs on patency in NTSVGs in off-pump CABG have not been published yet. Orebro University Hospital participated in the CABG Off- or On-pump Revascularization study (CORONARY, ClinicalTrials.gov number, NCT00463294) and included fifty-six patients. Accordingly, this is a sub-study and the aim was to assess the midterm patency in NTSVGs in clamp-less off-pump versus on-pump CABG at five-year follow-up.
Coronary artery blockages can reduce blood flow to the heart muscle. Fractional flow reserve (iFR or FFR) assessment is an invasive tool used to determine how much blood flow is reduced. The investigators will perform iFR/FFR on all intermediate coronary stenoses using standard practice, immediately before (at the time of) transcatheter aortic valve replacement (TAVR) and after successful TAVR. The investigators will compare pre- and post-TAVR iFR/FFR values, and assess short-term outcomes. The investigators hypothesize that iFR/FFR values will be consistently and significantly higher pre-TAVR in comparison with post-TAVR for the same lesions.
This study evaluates the effectiveness and safety rotational atherectomy in routine clinical practice.
This study evaluates long-term outcome of patients diagnosed as acute myocardial infarction and treated with medication, coronary artery bypass surgery and percutaneous coronary intervention in Asan medical center, Korea.
Recent studies have shown that the systemic inflammation caused by periodontal disease (PD) can determine important changes in the coronary arteries, favoring atherosclerosis progression and development of acute coronary syndromes (ACS). The aim of ATHERODENT study is to assess the interrelation between PD, inflammation and progression of coronary atherosclerosis in patients with ACS. Material and methods: This case-control observational study will enroll 100 patients (group 1 - ACS and associated PD, and group 2 -ACS and no PD), in whom the following data will be collected: (1) demographic and clinical data, (2) cardiovascular risk factors, (3) full characterization of PD markers, (4) systemic inflammatory biomarkers, (5) imaging biomarkers derived from transthoracic echocardiography, computed tomography, coronary angiography, optical coherence tomography and intravascular ultrasound, and (6) assessment of the presence of specific oral bacteria in samples of coronary plaques collected by coronary atherectomy, which will be performed during percutaneous revascularization interventions, when indicated in selected cases, in the atherectomy sub-study. The follow-up will be performed at 1, 3, 6, 12, 15, 18 and 24 months. The primary endpoint of the study will be represented by the rate of major adverse cardiovascular events (MACE rates) in PD vs non-PD patients and in correlation with: (1) the level of systemic inflammation triggered by PD and/or by ACS at baseline; (2) the vulnerability degree of atheromatous plaques in the coronary tree (culprit and non-culprit lesions); and (3) the presence and burden of oral bacteria in atheromatous plaques. Secondary endpoints will be represented by: (1) the rate of progression of vulnerability degree of non-culprit coronary plaques; (2) the rate of progression of atheromatous burden and calcium scoring of the coronary tree; and (3) the rate of occurrence of left ventricular remodeling and postinfarction heart failure.
The aim of Multiplaque clinical study is to assess the vulnerability degree of the atheromatous plaques, before and after a myocardial infarction (MI), based on multiomics analysis, associated with invasive and non-invasive data. In this study, a multi-parametric model for risk prediction will be developed, for evaluation of the risk that is associated with the vulnerable coronary plaques in patients that have suffered an acute coronary syndrome. In the study, evaluation of the imaging characteristics of these coronary plaques will be performed with the use of CT, OCT, IVUS and invasive angiography. We will study the correlation between plaque evolution and (1) the degree of vulnerability at baseline, (2) multiomics profile of the patients and (3) clinical evolution during follow-up. Also, new techniques for evaluation of the functional significance of coronary stenoses will be studied and validated, such as calculation of the fractional flow reserve or determination of shear stress in areas that are localized within the near vicinity of the vulnerable coronary plaques.
Cardiovascular diseases are the most common cause of death in the western world. Myocardial infarction pathogenesis usually involves the development of an atherosclerotic plaque and thrombus. Past research has shown a correlation between thrombin generation values and ischemic heart disease, however, to our knowledge no investigation has been done into the correlation of thrombin generation and cardiac catheterization results in ischemic heart disease patients. In the current research the investigator will investigate the correlation of thrombin generation values using calibrated automated thrombogram and cardiac catheterization results in active ischemic heart disease patients.