Drug-Coated Balloon in Combination With New Generation Drug-Eluting Stent in the Treatment of Long...
Coronary Artery DiseaseAn observational study to evaluate safety and efficacy of the hybrid approach DES/DCB in the treatment of long diffuse de novo coronary artery disease
Prospective Memory and Cardiac Activity in Coronary Artery Disease
CADProspective MemoryPrevious studies demonstrated an association between cognitive deficit and coronary artery disease (CAD; Abete et al., 2014; Deckers et al., 2017) even after controlling for the effects of age and socioeconomic status (Singh-Manoux et al., 2003). A selective, non-amnestic cognitive impairment profile has also been observed in this patient group (Roberts et al., 2010), with executive function as the most vulnerable cognitive domain (Rostamian et al., 2015). Prospective memory and CAD Prospective memory (PM) is another facet of executive function that concerns the realization of an intended action (Kvavilashvili, 1998). In addition to the support from memory system, PM strongly relies on attentional and executive control (Kliegel et al., 2011). For example, the two-stage cue-focused view of PM retrieval (McDaniel et al., 2004) posited the importance of "noticing" an action cue before the associated memory search can be initiated. PM is a clinically relevant psychological construct as the failure has been related to quality of life (Doyle et al., 2012), activities of daily living (Woods et al., 2008) and medication adherence (Zogg et al., 2012). However, little is known about PM function in CAD. Only Habota et al. (2015) reported significant PM deficit in a small group of chronic heart failure patients (N = 19) as compared to healthy controls (N = 24). Therefore, the first aim of the present study is to examine PM performance in people with CAD as compared to their healthy controls. Prospective memory and cardiac function The association between the brain and the heart has long been recognized (Samuels, 2007). However, the mechanism of cognitive impairment in CAD has not been clearly understood. Researchers proposed several contributing pathological routes including increased platelet activity, thrombo-embolic mechanisms or cardiac output reduction (Abete et al., 2014). The neurovisceral integration model (Smith et al., 2017) proposed a hierarchy of vagal control from intra-cardiac and cardiovascular reactions to representation of multimodal prior expectations that involve the cerebral executive control network. Accumulating evidence supported this notion by demonstrating the link between autonomic nervous system (ANS) and behavioral performance, such as the association between heart rate variability (HRV) and cognitive functions (Forte et al., 2019) and its moderating effect of resting pre-ejection time (PEP; Giuliano et al., 2017). Few studies investigated the relationship between autonomic responses and PM. Kliegel et al. (2007) and Rothen et al. (2014) verified that there was an association between increased skin conductance responses (SCRs) and the noticing of PM cues in young adults. More recently, Umeda et al. (2016) found that PM performance was associated with an increase in heart rate upon target presentation and with better interoceptive accuracy in college students. They hypothesized that PM was regulated by cardiac afferent signals that facilitate saliency detection and intention retrieval, which was also mediated by interoceptive accuracy. These preliminary findings suggest close relationship between PM and autonomic functions and provide another aspect of the evidence on the brain-heart connection. However, the methodology adopted in these studies suffered from crude, indirect measures of ANS activity. It is also unclear if the autonomic nervous function compromised by CAD (Montano et al., 2009) would play a role in PM deficit. Hence, the second aim of the present study is to investigate the relationship between PM and cardiac function as measured by HF-HRV (the parasympathetic component) and PEP (the sympathetic component).
Coronary CT-Derived FFR-Guided Strategy Versus Medical Therapy
Coronary Artery DiseaseMyocardial IschaemiaThe overall purpose of ACCURATE II trial is to compare the clinical outcomes of CT-derived FFR guided strategy versus medical therapy in patients with chronic coronary syndrome.
Phase II Combination Stem Cell Therapy for the Treatment of Severe Coronary Ischemia(CI)
Heart DiseaseBlocked Arteries4 moreThe present investigation will be a Phase II, single center, placebo-controlled, randomized, dose escalation, infusion modality (intracoronary vs transendocardial injection using the Cordis Biosense NOGASTAR TM Mapping Catheter with the Biosense MYOSTAR TM left ventricular injection catheter) transplantation of an autologous (your own stem cells) combination of bone marrow-derived stem cells into myocardium for the treatment of severe coronary ischemia. The purpose of this research study is to determine if the infusion of a combination of stem cells obtained from the bone marrow of the same patient will contribute to the formation of new blood vessels in patients with symptomatic severe coronary ischemia(CI). In this trial we will determine whether the combination stem cell treatment is safe, feasible and results in the development of mature stable and/or collateral vessels and improvement of cardiac function. Coronary Ischemia (CI) is intractable angina due to severe coronary artery disease which can seriously decrease blood flow to the heart. CI needs a comprehensive treatment since the condition will not improve on its own. The overall goal of the treatment is to increase blood flow to the heart and improve symptoms of angina. The study hypothesis is based on the concept that the process of formation of new blood vessels is complex and requires the participation of several types of stem cells and growth factors. The lack of any of these components will produce vessels which are immature and unable to provide appropriate blood supply to the heart. Patients eligible to participate in this study are those suffering from severe blockages of the vessels of the heart and are not candidates for percutaneous revascularization or surgical procedures.
Hyperpolarized MRSI in Ischemic Heart Disease: A Metabolic Investigation of the Heart Muscle
Ischemic Heart DiseaseThis study aims to investigate the potential of using hyperpolarized [1-13C]-pyruvate magnetic resonance imaging (MRI) to assess metabolic alterations in patients with ischemic heart disease (IHD). Altered myocardial metabolism is recognized as a crucial factor in heart failure and IHD, and modulating cardiac metabolism offers a new approach to treatment. However, current diagnostic modalities use ionizing radiation and have shown limited prognostic value. Hyperpolarization through dynamic nuclear polarization (DNP) enables highly sensitive in vivo detection of metabolic processes. Hyperpolarized [1-13C]-pyruvate allows visualization of glycolysis-related metabolism, providing insights into the breakdown of glucose and its derivatives. By using this technique, the study aims to differentiate viable from non-viable myocardium in patients with IHD. The objectives include implementing hyperpolarized [1-13C]-pyruvate cardiac MRI to image metabolic flux in the human heart and investigating the potential of this method to distinguish viable from non-viable myocardium in patients with IHD. The study endpoints involve assessing metabolic flux through the pyruvate dehydrogenase complex (PDC) and analyzing ratios of different metabolites, which can indicate the extent of pyruvate oxidation and lactate production. A cross-sectional study design involving patients with CHF and ischemic heart disease will be used. Patients will undergo hyperpolarized [1-13C]-pyruvate MRI, PET imaging, late gadolinium enhancement (LGE) MRI, and cardiac magnetic resonance imaging (CMR). The study will compare [1-13C]-pyruvate MRI findings with PET results, allowing for a correlation between metabolic data and traditional imaging techniques. This innovative approach could provide valuable insights into the metabolic changes associated with ischemic heart disease
Middle East African Registry Women CardioVascular Disease
Heart FailureAtrial Fibrillation2 moreThe MEA cardiology societies have joined forces to tackle the issue by establishing a tangible real-world data registry in every MEA country. This endeavor has resulted in the development of a multicenter registry called MEA-WCVD, which is being sponsored by each national cardiology society from participating countries. All data gathered will be consolidated into a singular registry for thorough analysis. Country specific analysis will be performed.
Intravenous CAngrelor in High-bleeding Risk Patients Undergoing percutaneouS Coronary Intervention...
BleedingCoronary Artery Disease1 moreThe study will investigate the prevalence of high bleeding risk (HBR) features and will compare the clinical outcomes of HBR and non-HBR patients among those undergoing percutaneous coronary intervention and receiving cangrelor infusion.
The DISCOVER INOCA Prospective Multi-center Registry
Ischemia and No Obstructive Coronary Artery DiseaseCoronary Microvascular Dysfunction4 moreThe overall objective of this multi-center registry is to identify specific phenotypes of INOCA with both an anatomic evaluation (coronary angiography and intravascular imaging) and physiologic assessment with the Abbott Coroventis Coroflow Cardiovascular System, and to determine long-term outcomes.
Impact of Spiroergometer Parameters as Diagnostic Marker of Cardiac Ischemia in Pts. With Stable...
Stable AnginaIn Patients with stable Angina pectoris CCS 1-3 exercise testing for ischemia detection is widely used despite the known limitations. Measurement of the FFR is invasive but gold standard for Ischemia detection. Adding of parameters of spiroergometer might help to improve diagnostic accuracy of non invasive exercise testing. Therefore the trial is evaluating diagnostic accuracy of spiroergometric parameters compared to invasive FFR measurement.
Beijing Hospital Atherosclerosis Study
AtherosclerosisCardiovascular Diseases3 moreThe Beijing Hospital Atherosclerosis Study (BHAS) is a prospective, single-center, observational cohort study performed at the Beijing Hospital in Beijing, China. Subjects enrolled in this study will be the consecutive patients undergoing coronary angiography in the hospital. Blood samples are taken immediately before the angiographic procedure. Clinical and angiographic characteristics are recorded. All patients will have routine follow-up at 6 months and 1 year postprocedure, then yearly thereafter. Follow-up includes mortality, myocardial infarction (MI), stroke, rehospitalization, coronary revascularization procedures, life styles, and medication use. The primary end point for the study will be the major adverse cardiovascular events (MACE), defined as death from any cause, nonfatal myocardial infarction, nonfatal stroke and revascularization. This study has been reviewed and approved by the Ethics Committee of Beijing Hospital. All enrolled individuals will be received written notice of the intended use of their blood samples and provided written consent. The major objectives of the BHAS Study are to (1) establish a prospective cohort and a biological sample bank in ethnic Chinese with coronary angiography, (2) identify baseline new biosignature profiles such as novel biomarkers via metabolomics approach associated with the subsequent clinical events, (3) assess the use of molecular profiles from multiple platforms (eg, genomics, proteomics, and metabolomics) integrated with readily available clinical information for improved risk classification for cardiovascular events, and (4) provide clearer understanding of underlying disease processes.