Loading clinical trials...
Loading clinical trials...
Showing 1-20 of 1,410 trials
NCT04614467
This clinical trial will explore the efficacy and safety of GCSF-mobilized autologous CD34+ cells for the treatment of CMD in adults currently experiencing angina and with no obstructive coronary artery disease. Eligible subjects will receive a single administration of CLBS16 or placebo.
NCT03507205
The objective of this study is to evaluate the long-term efficacy and safety of coronary stenting with the various types of drug-eluting stents (DES) and to determine clinical device and procedural success during commercial use of DES in the real world. The investigators will compare EES (Xience V/Promus and Xience Prime), SES (Cypher), ZES (Resolute Integrity, Endeavor Resolute, Endeavor), and BES (Biomatrix, Biomatrix Flex, and Nobori).
NCT07324720
1. Study Purpose This study aims to compare clinical outcomes between two revascularization strategies in patients with high-risk coronary artery disease and 50-90% angiographic stenosis: a plaque burden and vulnerability-based revascularization strategy guided by intravascular imaging versus an ischemia-based revascularization strategy guided by physiologic assessment. 2. Background Percutaneous coronary intervention (PCI), in conjunction with optimal medical therapy, is one of the main therapeutic strategies for improving outcomes in patients with CAD. To enhance the results of PCI, various diagnostic and adjunctive techniques have been developed-most notably, invasive physiologic assessment and intravascular imaging (IVI). Invasive physiologic indices such as fractional flow reserve (FFR) and instantaneous wave-free ratio (iFR) are recognized as the most accurate methods to determine vessel-level myocardial ischemia, and current guidelines recommend PCI based on these physiological measurements. Recently, angiography-derived FFR has also been developed, allowing ischemia assessment without pressure wire measurement, and has been endorsed as a useful tool for guiding PCI decisions. Intravascular imaging, on the other hand, provides detailed anatomical insights into atherosclerotic plaque morphology and plays a critical role in achieving procedural optimization. Current guidelines recommend the use of IVI, particularly in the treatment of complex lesions. While most previous IVI studies have focused on procedural optimization, more recent investigations have begun to explore the use of IVI for PCI decision-making itself. Emerging data suggest that revascularization decisions based on quantitative and qualitative plaque assessment using IVI are non-inferior to those based on invasive physiologic testing. Moreover, IVI enables the identification of vulnerable plaques, and studies indicate that intervening on such lesions may improve outcomes. At present, a physiology-guided decision-making strategy combined with IVI-guided optimization is considered the best evidence-based approach according to guidelines. However, recent data showing the potential advantages of IVI-guided decision-making and IVI-guided optimization-particularly in high-risk, complex patients and in those with vulnerable plaque morphology-suggest that IVI-based strategies may offer greater clinical benefit in such populations. Despite this, a comprehensive strategy that integrates both quantitative (plaque burden) and qualitative (vulnerability) aspects of plaque evaluation via IVI has yet to be clearly established. Therefore, this study seeks to propose IVI-based quantitative and qualitative criteria for high-risk CAD patients and to compare outcomes between a plaque burden and vulnerability-based revascularization strategy and the conventional ischemia-based revascularization strategy. For all patients undergoing PCI, IVI-guided optimization will be performed to ensure the highest possible procedural quality in both groups. 3. Study Procedures Patients undergoing coronary angiography for suspected or known CAD will be screened for eligibility. After providing a detailed explanation of the study, written informed consent will be obtained from those deemed appropriate for participation. Following coronary angiography, patients with significant coronary stenosis who meet all inclusion and no exclusion criteria will be enrolled in the study. Eligible participants will then be randomized in a 1:1 ratio to either the plaque burden and vulnerability-based revascularization group or the ischemia-based revascularization group. Stratified randomization will be performed according to participating center and presence or absence of acute coronary syndrome (ACS) to ensure balance between the groups.
NCT07548554
Despite all advances in diagnostic and therapeutic methods over the past century, ischemic heart disease (IHD) remains a leading cause of mortality and morbidity worldwide. IHD develops as a result of reversible or irreversible impairment of myocardial perfusion in acute or chronic settings. This perfusion abnormality most commonly arises from compromise of epicardial coronary artery patency due to stenosis, occlusion, or vasomotor abnormalities. Structural and/or functional alterations in the microcirculation may also contribute to impaired myocardial perfusion. Conditions in which myocardial perfusion is acutely compromised are classified as acute coronary syndromes (ACS), whereas reversible ischemia developing on a chronic basis is evaluated under the umbrella of chronic coronary syndromes (CCS). In the assessment of epicardial (macrovascular) or microvascular pathologies leading to ischemia in CCS, angiography, a macroscopic lumenographic method, is often insufficient. Intracoronary pressure and flow measurements are required to determine the impact of angiographically detected epicardial lesions on coronary blood flow, perfusion pressure, and consequently myocardial perfusion. These measurements are referred to as invasive intracoronary physiology (IIP). Current guidelines recommend that decisions regarding revascularization of intermediate epicardial lesions should be based on IIP. Revascularization guided by IIP is associated with reduced mortality and morbidity, along with a lower stent burden. IIP can be performed using pressure-based, flow-based, or combined strategies. Recent multinational studies indicate that strategies integrating both flow and pressure parameters achieve better clinical outcomes with fewer interventions and reduced stent implantation compared to pressure-only approaches. Indeed, in cases where coronary flow and flow reserve are preserved, abnormalities in pressure parameters alone may not justify revascularization. Nevertheless, lesions deemed not to be associated with reversible ischemia based on IIP may still pose a risk due to plaque erosion/rupture and subsequent thrombotic cascades that can acutely compromise the lumen. Many acute coronary syndromes arise from lesions that are hemodynamically insignificant (i.e., do not affect flow) and unrelated to reversible ischemia in the CCS setting, but which undergo sudden near-total or total occlusion. The histopathological characteristics of any coronary lesion can be evaluated using intracoronary imaging techniques. Intracoronary Optical Coherence Tomography (IC-OCT) is a high-resolution, real-time imaging modality that quantitatively assesses lipid-rich plaque content, evaluates the thickness and stability of the fibrous cap separating this content from the lumen, and provides detailed information regarding minimal lumen area, lesion morphology, surface characteristics, presence of erosion, and plaque vulnerability to rupture. IC-OCT can identify lesions that are hemodynamically insignificant yet may benefit from revascularization and have the potential to cause ACS. Combined evaluation using IC-OCT and IIP enables an integrated assessment of both the relationship with chronic reversible perfusion impairment and the risk of precipitating ACS for each lesion and coronary segment, thereby facilitating optimal revascularization strategies. Despite the available evidence and guideline recommendations in CCS, the use of IC-OCT and IIP in the context of ACS remains limited due to procedural challenges and variability in practical application. These methods are not routinely recommended in guidelines and, in some cases, are even discouraged. However, the optimal strategy for revascularization of non-culprit lesions in ACS remains uncertain, and no consensus has yet been established. Patients with ACS are at increased risk for recurrent events arising from all coronary lesions. Therefore, accurate evaluation and preventive revascularization strategies for these lesions are expected to provide substantial benefit. Our study aims to reclassify and characterize non-culprit lesions in patients with ACS using combined IC-OCT and IIP assessment.
NCT07422688
The purpose is to investigate if a strategy of routine OCT based diagnosis and guidance of PCI improves clinical outcomes compared with a standard strategy of guidance by angiography in patients presenting with ACS
NCT07329699
The AIM-FFR trial is a prospective, multi-center, open-label, randomized controlled, non-inferiority trial. The current trial will evaluate non-inferiority of MPFFR-guided PCI, compared with invasive FFR-guided PCI in patients with coronary artery disease.
NCT06863155
Patients receiving chronic oral anticoagulation with indication for percutaneous coronary revascularization with stent implantation, and needing for antiplatelet therapy, are at high risk of bleeding. The new generation of ultrathin strut sirolimus-eluting stent with bioabsorbable polymer allow for shorter antiplatelets regimens and could be a good option for this high-bleeding risk patients.
NCT07536607
For patients with severe calcification or complex non-calcified plaques, we investigate wether PCCT can enable non-invasive, in vivo precise differentiation and quantitative measurement of plaque components (e.g., spotty calcification, necrotic core, fibrous tissue). Further we also study wether these quantitative imaging features can independently predict the risk of MACE in the short term and long term
NCT07396792
It is a prospective, controlled, single-center, observational, non-randomized study. The study is planned to include at least 4000 patients 18 years old and older in the training sample and 1000 patients over 18 years old in the test sample (the total number of patients is at least 5000 people). Patients will be included in the study if they have undergone a full examination (laboratory, clinical and instrumental), allowing for the verification or exclusion of cardiac and cardiac-associated pathology in accordance with current recommendations. During the course of the study, the authors of the work do not interfere with the above-mentioned scope of the examination, which is carried out on patients in accordance with clinical guidelines. All patients included in the study will undergo ECG recording in standard lead I for 1 minute twice, followed by spectral analysis of the obtained data, which will be stored at the remote monitoring center of Sechenov University without being linked to the personal data of patients. A spectral analysis of the electrocardiogram will be performed using a continuous wavelet transform. The result of this study will be the identification of ECG parameters that will correlate with cardiac and cardiac-associated pathology
NCT04907253
The purpose of this study is to test the anti-inflammatory and anti-senescence effects of quercetin during coronary artery by-pass graft surgery.
NCT05360446
CKJX839D12303 is a research study to determine if the study treatment, called inclisiran, in comparison to placebo taken in addition to statin medication can effectively reduce the total amount of plaque formed in the heart's vessels as measured by coronary computed tomography angiography (CCTA) from baseline to month 24. This study is being conducted in eligible participants with a diagnosis of non-obstructive coronary artery disease (NOCAD), where the coronary arteries are blocked less than 50%, and with no previous cardiovascular events.
NCT07349979
To evaluate whether percutaneous coronary intervention (PCI) with contemporary drug-eluting stents (DES) combined with guideline-directed medical therapy (GDMT), compared to GDMT alone, reduces the time to first occurrence of major adverse cardiovascular events (MACE) through 12 months in patients with ischemic cardiomyopathy and a left-ventricular ejection fraction (LVEF) ≤40%. MACE is a composite of cardiovascular \[CV\] death, spontaneous myocardial infarction (MI), any unplanned revascularization, heart failure (HF)-related rehospitalization, heart transplantation, requirement of device implantation (e.g., valvular treatment, pacemaker, or left ventricular assist device \[LVAD\]), or requirement of intravenous medications due to worsening heart failure in outpatients.
NCT03971500
Prospective, multicenter, randomized, double-blind, placebo-controlled trials.
NCT07521007
This study is designed to evaluate the efficacy and safety of intravenously administered YN001 in patients diagnosed with coronary atherosclerosis, who are receiving background therapy for cardiovascular (CV) risk factors management.
NCT05479188
The aim of the proposed study is to evaluate microcirculatory alterations in patients undergoing open heart surgery with minimal invasive versus conventional extracorporeal circulation.
NCT05770349
According to modern concepts, mitochondrial dysfunction may be the fundamental basis for the development and progression of CHF, including in patients undergoing myocardial revascularization. The processes of mitochondrial fusion, division and mitophagy are aimed at maintaining cellular homeostasis. A change in the balance of these processes can lead to the accumulation of damaged organelles with impaired functions. In patients with CHF, dysfunctional mitochondria are characterized by size dispersion, crist disorganization, and localization changes relative to myofibrils. At the same time, the topic of the influence of mitochondrial dysfunction on the prognosis and clinical course of CHF remains debatable today. Direct study of the structural and functional features of mitochondria in human cardiomyocytes is an extremely difficult task, and therefore, such studies are carried out extremely rarely and on very limited cohorts. In the planned study, due to the long time of the study material recruitment, the ultrastructure of mitochondria in a large cohort of patients, ranging from 45 to 60 people, will be studied. The aim of this study is to study the association of mitochondrial dysfunction with the clinical course and outcomes of CHF of ischemic etiology, as well as to assess the degree of compliance of indirect criteria of mitochondrial dysfunction with direct ultrastructural characteristics of mitochondria in cardiomyocytes. This single-center prospective cohort study will involve 45-60 patients. The patients will have biopsy samples taken from the right auricle, as well as blood collection and preservation and its derivatives. Electron microscopy of myocardial samples will be performed to assess the ultrastructure of mitochondria of cardiomyocytes. The results of a direct study of mitochondria will be compared with indirect signs of mitochondrial dysfunction: the registration of the phenomenon of increased leaching of radiopharmaceuticals from the myocardium, an increase in the number of copies of mitochondrial DNA and the concentration of cytochrome C in the blood, the affiliation of mitochondrial DNA to haplogroup K. The results obtained in each of the research tasks will have high scientific significance and publication potential.
NCT06779630
The purpose of the study is to assess the safety and efficacy of the Orsiro® Mission 48- mm Sirolimus-Eluting Coronary Stent System in the treatment of subjects with atherosclerotic lesion(s) \>36 mm and ≤ 44 mm in length (by visual estimate) in the native coronary arteries with a reference vessel diameter of 2.25 mm to 4.0 mm. Patients enrolled in the United States will be followed for 2 years post index procedure with follow-up visits at 1, 6, 12 months and 2 years post index procedure. Patients enrolled outside of the United States will be followed through 5 years post index procedure with additional follow-up visits at 3 and 5 years post index procedure.
NCT05461729
Brief Summary: Cardiac rehabilitation (CR) is a multi-factorial intervention, designed to limit the physiological and psychological effects of cardiovascular disease such as coronary artery disease (CAD), manage symptoms, and reduce the risk of future cardiovascular events. CR is a structured program not only addressing CAD but also comorbidities including hypertension, dyslipidemia, diabetes and obesity as well as other risk factors. CR aims at long-term lifestyle changes to reduce modifiable risk factors, and it's success depends on a large number of interacting variables including biological, psychological and social factors. Recently, the importance of patient-centered approaches to secondary prevention and CR success has been underlined but intra-individual factors and their interactions are not well understood. The TIMELY prospective study aims to collect high-resolution data for data mining and artificial intelligence machine learning models to identify dependencies between factors and predict favorable outcomes of CR. Data collection will include data documented during controlled center-based CR as well as remote-measurement of physical activity data, (central) blood pressure and pulse wave analysis as well as long-term ECG data during a 6-months period after discharge. Follow-up assessments will be performed at least at 6 months and at 12 months after discharge. Events (MACCE) will be collected for up to 10 years. After 2023, the study will be run under the acronym PrädiktoR. Main objectives of the study: 1. To examine uptake and adherence to a healthy lifestyle (i. e. adherence to CR guidelines in CAD) and the effects on long-term outcomes. 2. To identify potentially mediating mechanisms and predictive factors for long-term CR success in CAD, also to be used in machine learning models and for the generation of digital twins. 3. To investigate acceptance of different eHealth components as well as expectations and needs among CAD patents in CR.
NCT07496281
The OPTIA-AF trial is a prospective, multicenter randomized controlled trial designed to evaluate a rhythm-guided antithrombotic strategy in patients with atrial fibrillation (AF) who maintain durable sinus rhythm after catheter ablation and have a history of prior drug-eluting stent (DES) implantation. Current guidelines generally recommend long-term oral anticoagulation (OAC) in patients with AF, even after successful ablation, while antiplatelet therapy remains essential for prevention of coronary ischemic events following percutaneous coronary intervention. OPTIA-AF tests whether discontinuation of non-vitamin K antagonist oral anticoagulant (NOAC) therapy with transition to single antiplatelet therapy (SAPT) is non-inferior to continued NOAC therapy in patients who maintain sinus rhythm for at least 12 months after AF ablation. Participants will be randomized in a 1:1 ratio to either continued NOAC therapy or NOAC discontinuation with SAPT. The primary endpoint is a 24-month composite net clinical outcome including ischemic stroke, systemic embolism, myocardial infarction, definite or probable stent thrombosis, cardiovascular death, and major bleeding.
NCT07493603
The goal of this clinical trial is to learn if Yiyang Huoluo Decoction (a custom Chinese herbal medicine) works safely and effectively to treat coronary heart disease with atherosclerosis in older adults. It also aims to find out how this herbal treatment may affect blood vessel health and repair at a cellular level. The main questions it aims to answer are: * Does adding Yiyang Huoluo Decoction to standard Western medical care improve symptoms and heart-related health in older adults with coronary heart disease and atherosclerosis? * Is Yiyang Huoluo Decoction safe for older adults to take alongside their regular heart medications? * How does this herbal treatment affect the damaged blood vessels in study participants? Researchers will compare two groups of participants to see if the combined treatment works better than standard care alone. Who can take part: Older adults diagnosed with coronary heart disease and atherosclerosis who meet the study's health and eligibility rules. What participants will do: * Be split randomly into two groups of 15 people each: one group gets standard Western heart medicine only, and the other gets standard Western heart medicine plus Yiyang Huoluo Decoction (herbal granules) * Complete the 12-week decoction treatment plan as directed by the research team * Attend scheduled study visits for health checks, blood tests, heart and blood vessel scans (such as carotid ultrasound and coronary CTA), and symptom reviews * Provide two small blood samples for research testing (samples will be destroyed after study testing is finished) * Report any side effects, discomfort, or changes in health to the research team right away All personal health information collected for this study will be kept private and confidential. Participation is completely voluntary, and participants may quit the study at any time for any reason without losing access to regular medical care.