View clinical trials related to Coronary Stenosis.
Filter by:The goal of this Category 3 research involving the human person is to predict the measurement of the post-stenosis flow (FFR) using CTTA coupled with an intelligent predictive analysis system and comparing it with invasive coronary angiography FFR as measurement of reference. The population studied are adult patients,- with no diagnosed coronary status or history of stenting or bypass surgery- with indication for FFR measurement. The main question it aims to answer is: • Can, in a single acquisition, CTTA coupled with AI produce good predictive performance of stenosis and FFR ? If it can it will allow us to avoid the need for invasive FFR. For patients who will be included in the retrospective part: only their data from their medical records will be used. Patients who will be included in the prospective part will additionally complete the EQ5D5L questionnaire before coronary angiography and at the end of the patient's participation (4 months after the CCTA). There is a no comparison group, the predictive FFR from CTTA of a patient will be compared with angiography FFR from the same patient, same vessel.
The Reverse T-stenting And Minimal Protrusion (Reverse TAP) is an up-front 2-stent technique that treats complex coronary bifurcation. Compared to crush techniques, it does not require crushing of the side branch stent but only minimal protrusion of the side branch stent before main vessel stenting. Nowadays, no studies compare the Reverse-TAP and the External Minicrush in treating complex coronary bifurcation, so eventually, procedural, clinical and safety differences remain unknown.
This investigation is to see if the new Novasight Hybrid imaging catheter can safely and accurately provide two different types of images (IVUS and OCT) of the inside of heart vessels at the same time. The images will be compared against one type of image (IVUS) to see if providing two, improves identification of different types of plaque (fatty substances) and informs better treatment. Atherosclerotic coronary artery disease is the name given to the development of plaques in the heart vessels. The plaques can cause narrowing in the vessels which may cause chest pain. Sometimes, plaques completely block the vessels causing a heart attack. This type of disease is the main cause of death worldwide. Research shows that when the type of plaque causing problems is known, it can help understanding of which narrowing may get worse and cause a heart attack. This information can also help with deciding when and which treatment to provide. Intravascular imaging is a way to assess the inside of the heart arteries. It involves passing a narrow catheter into the heart vessels. The catheter has a probe on its tip that emits light or an ultrasound signal. The signal is reflected by the vessel wall, back into the probe. A computer program interprets the signals and creates images of the inside of the arteries. There are two types of imaging catheters. One uses sound (Intravascular Ultrasound (IVUS)) and one uses light ((OCT) Optical Coherence Tomography) to produce different types of pictures of the vessels and plaques. The images produced by each type do not provide a full picture of the plaques on their own. A new hybrid imaging catheter has been developed which has two probes at the tip, an IVUS probe and an OCT probe and can produce both types of images at the same time. It is likely that having both types of images is better for finding high-risk plaques and should lead to better, more specific treatment. 50 heart attack patients who need an angiogram will have images of their vessels taken during their treatment. Once the imaging is complete the patient will continue with their routine planned care. The information from the images will be used to see how safe and accurate this new hybrid catheter is compared with the separate IVUS and OCT catheters, and also check to see if it is easier to identify plaques that might cause future problems. The study also aims to develop new ways to process and use the images from the hybrid catheter to better treat the plaques that cause the heart attack.
The management of patients with unprotected left main coronary artery (LMCA) disease undergoing percutaneous coronary intervention (PCI) in contemporary interventional cardiology practice remains matter of intense debate. Particularly, the combination of the optimal drug-eluting stent (DES) selection and antiplatelet regimen for patients who require LMCA PCI remains undetermined. Newest-generation thin-strut polymer-free drug-coated stents have the potential to further mitigate chronic inflammation and promote faster re-endothelialization. In the LEADERS FREE randomized trial, PCI with the early-generation BioFreedom (Biosensors International, Switzerland) thick-strut stainless-steel drug-coated stent group was associated with significantly lower rates of the primary safety endpoint, defined as a composite of cardiac death, myocardial infarction, or stent thrombosis at 12 months compared to bare-metal stents among 2,466 patients at high-risk of bleeding who received one-month dual antiplatelet therapy (DAPT), a difference driven by a significantly lower risk for clinically driven target-lesion revascularization. In the ONE-MONTH DAPT randomized study, which enrolled 3,020 patients with coronary artery disease considered for PCI for noncomplex lesions, the rates of the primary composite endpoint of cardiac death, nonfatal myocardial infarction, target vessel revascularization, stroke, or major bleeding within 12 months occurred similarly in patients treated with 1-month DAPT after PCI with early-generation thick-strut stainless-steel polymer-free drug-coated stent (BioFreedom, Biosensors International, Switzerland) and those treated with 6- to 12-month DAPT after newer-generation biodegradable polymer DES (Biomatrix, Biosensors International, Switzerland or Ultimaster, Terumo Corp., Japan) implantation. However, no dedicated randomized clinical trial to date has evaluated the safety and efficacy of newest-generation thinner-strut cobalt-chromium polymer-free drug-coated stents combined with a P2Y12 inhibitor-based SAPT strategy among patients undergoing highly complex PCI procedures, such as those treated for LMCA disease. Recent evidence from a large-scale meta-analysis of several randomized clinical trials including >32'000 patients indicated that 1-3 months of DAPT followed by P2Y12 inhibitor single antiplatelet therapy (SAPT) after second-generation DES implantation was associated with lower risk for major bleeding and similar risk for adverse ischemic outcomes compared with conventional DAPT. These findings suggest that P2Y12 inhibitor SAPT following a short DAPT course (1-3 months) may represent a valuable treatment option for patients undergoing PCI with newer-generation DES compared to standard conventional 12 months DAPT, but this strategy has never been investigated in dedicated randomized clinical trials focused on patients at highest-risk for ischaemic events, such as patients undergoing LMCA PCI. The ULTRA-LM randomized trial aims at filling this current gap of knowledge, which may have large impact on clinical practice and international guidelines. ULTRA-LM will be the first randomized clinical trial to investigate the safety and efficacy of a novel thin-strut cobalt-chromium BioFreedom Ultra polymer-free drug-coated stent (Biosensors International, Switzerland) combined with P2Y12 inhibitor-based single antiplatelet therapy among patients undergoing PCI for LMCA disease.
A prospective, multi-center, single-group target value method was used in this study. According to the inclusion criteria stipulated in this trial protocol, > 3 medical device clinical trial institutions with the record of the State Food and Drug Administration were selected as clinical centers, and 190 cases were selected (the first case of each center was taken as the imported case. Follow-up was carried out according to the program process, but the results were analyzed separately. Moderate-to-severe calcified stenosis patients who met all the inclusion criteria and did not meet any exclusion criteria were enrolled into the study. Lumen pretreatment was performed using the coronary shock catheter system and drug-eluting stents were implanted. Subjects were followed up immediately after surgery, before discharge, 30±3 days after surgery, and 6 months ±14 days after surgery to evaluate the safety and effectiveness of coronary lithotripsy catheter system for preconditioning patients with moderate and severe coronary artery calcification stenosis. In this study, the success rate of postoperative surgery was used as the primary endpoint, and major cardiovascular and cerebrovascular adverse events within 30 days after surgery were used as the secondary endpoint. After the completion of the primary endpoint evaluation of the project, it shall be submitted together with other data to the competent department of medical device approval for initial registration. At the same time, continue to complete the follow-up of the subjects.
Ischaemic Heart Disease (IHD) is the worlds leading cause of death. IHD is often caused by a narrowing of the coronary arteries, which prevents blood from flowing to the heart muscle, causing pain and damage to the heart. If an individual has a myocardial infarction (MI), parts of the heart that are damaged cannot be repaired. Therefore, it is important to identify and treat the narrowing of the arteries before an MI occurs. At present there are 2 main methods of identifying narrowing of the arteries. The first is an invasive procedure, the other using a CT scan. Whilst both methods are effective, they entail risk. The invasive procedure can damage the coronary arteries, whilst the CT scan exposes patients to radiation and contrast, which can increase the risk of cancer and allergic reactions. Magnetic Resonance (MR) scanning is an alternative to these methods, but it has been limited in use in the past due, in part, to the high technical knowledge required to obtain images. In addition, there is a degree of subjectivity in the selection of the mid-diastolic rest period, potentially affecting consistency of results. This means it is difficult to use in a day-to-day hospital environment. However, recent technological developments using artificial intelligence mean that images can be acquired in a more automated and consistent fashion. This new scan has yet to be tested in a clinical trial. Therefore, the objective of the clinical study is to test this new scan to determine its efficacy. 230 patients at 5 sites at risk of coronary artery disease, who have been referred for invasive coronary angiography, will undergo both their angiography and the new MR scan. The MR scan will then be compared to CCTA for diagnostic accuracy and image quality. The investigators hypothesise that the new MR scan will have the same diagnostic accuracy as invasive coronary angiography, with no differences in interpretation of the images across the 5 different hospitals. If proven effective, this would demonstrate that MR scanning of the coronary arteries could prove a safe, clinically useful alternative to both CT scanning and invasive assessment of coronary artery narrowing. In addition, if there is no difference across different locations, it would demonstrate that these scans can be performed consistently, facilitating implementation on a healthcare-system wide basis.
The optimal screening methods for coronary insufficiency, a frequent and pejorative complication in diabetics, are subject to debate, particularly in situations of silent myocardial ischemia. The contemporary strategy consists of pre-selecting asymptomatic patients at very high cardiovascular (CV) risk by performing a coronary calcium score. If this is found to be high >300 AU (Agatston units), the patient is suspected of being at high risk of silent myocardial ischemia (SMI), and the assessment is completed to exclude the presence of coronary artery disease likely to benefit from revascularization. The complementary evaluation consists in evaluating the myocardial perfusion to judge the perfusion repercussions. The most common examination to date is myocardial scintigraphy, because stress tests are too frequently submaximal in diabetics. However, the reproducibility of scintigraphy is controversial and their sensitivity and specificity are debated in this indication. This problem is similar in stable symptomatic coronary diabetic patients for whom an indication for functional examinations is justified. The double-energy double-layer spectral scanner (SDEDC) could now become a relevant tool in this field, since it can combine not only anatomical data (identification of coronary stenosis) but also functional data (myocardial perfusion) during a stress protocol. thanks to the spectral images which make it possible to measure the tissue concentration of intramyocardial iodine downstream of the considered stenosis.
This single-centre cross-sectional study aims to ascertain the impact of dyslipidemia on long-term graft patency after coronary artery bypass grafting (CABG).
The READY register is a multicenter open label registry of patients underwent invasive intracoronary FFR and RFR measurement using the Quantien system. The register collects clinical and epidemiological data of patients scheduled for invasive coronary physiology.
This is a proof of concept study involving a novel medical device, developed to investigate the potential for detecting and localising coronary artery stenosis. A prototype device will be used in the proposed clinical investigation. It is a stick-on patch containing sensors which measure the sound produced at and the movement of, the chest surface by flowing blood as it accelerates through the stenosis and becomes disturbed as it emerges downstream, allowing the blockage to be detected and localised non-invasively. The proposed clinical investigation will involve a small number of patients and healthy volunteers. The patients will be drawn from those attending The BartsHeart Centre for suspected or diagnosed coronary artery disease and all clinical measurements will take place at Barts Health Trust. The patch to be used in the proposed clinical investigation incorporates commercially available sensors and will be tested by recording acoustic signatures in healthy volunteers, then in patients undergoing coronary CT angiography at Barts. Signals will be analysed initially by measuring their acoustic energy at various frequencies and in later iterations, by a machine-learning algorithm. Results will be validated against the CT angiography gold standard.