View clinical trials related to Angina Pectoris.
Filter by:The purpose of this study is to assess whether the use of physiology parameters as guidance post-percutaneous coronary interventions (PCI) is associated with less risks of target vessel failure (TVF) and angina-related events than standard angiographic guidance.
There are a growing number of patients with refractory angina pectoris (RAP). RAP is defined as a 'chronic condition (> three months) characterized by diffuse coronary artery disease in the presence of proven ischemia, which is not amendable to a combination of medical therapy, angioplasty or coronary bypass surgery'. These patients are severely restricted in performing daily activities due to debilitating angina complaints, leading to a decreased quality of life. Spinal cord stimulation (SCS) is a last resort treatment option for patients with RAP. SCS is a device with a lead located in the thoracic epidural space and an Implantable Pulse Generator (IPG) in the abdomen or buttock that provides neurostimulation. Four possible mechanisms explaining the beneficial effects of SCS on RAP have been described: reduction of pain perception, decreased sympathetic tone, reduced myocardial oxygen demand, and improved coronary microcirculatory blood flow. Research into the effect of SCS on RAP up to date have mainly been observational studies, with only four placebo-controlled randomized controlled trials. All studies confirm that treatment with SCS leads to a reduction in the number of angina pectoris attacks. What is currently not clear, is whether there is a placebo effect as results vary between the studies. One study looked at the effect of SCS in patients with RAP on the reduction of ischemia (using MIBI-SPECT) with no control arm. After 12 months myocardial ischemia was reduced, but not after three months of treatment. Leading to the conclusion that the reduction is myocardial ischemia was not a direct effect of SCS, but rather due to better coronary collateralization. The 2020 ESC guideline 'chronic coronary syndromes' mentions non-existing to promising levels of evidence with regard to treatment options in patients with RAP and concludes that SCS may be considered (Class IIB; level of evidence B). It concludes that 'larger RCTs are required to define the role of each treatment modality for specific subgroups, to decrease non-responder rates and ascertain benefit beyond potential placebo effects'. The aim of the current randomized controlled trial (double-blind, cross-over, placebo-controlled, single center) is to determine if high density spinal cord stimulation, a paresthesia free form of stimulation, leads to a significant reduction in myocardial ischemia (using PET with Rubidium-82 as tracer) in patients with refractory angina pectoris. All patients included in this study will receive an implanted spinal cord stimulator after a positive TENS treadmill outcome and proven ischemia using the imaging modality PET with Rubidium-82 as tracer. Using a cross-over design all patients will have a 6 month period with high density stimulation and 6 month period of no stimulation. Randomization will determine in which order the patient receives these treatments. Both the patient and the treating physicians are blinded for this randomization process. At baseline a 6-minute walking test, the Seattle Angina Questionnaire, the RAND-36 questionnaire, the NRS scale and the CCS class will be performed/filled out. Cross-over takes place at 6 months (switch from high density stimulation to no stimulation or vice versa) prior to which the PET scan is repeated, as well as the 6-minute walking test, the Seattle Angina Questionnaire, the RAND-36 questionnaire, the NRS-scale and the CCS-class. At the end of the study period (12 months) the PET scan is repeated, as well as the 6-minute walking test, the Seattle Angina Questionnaire, the RAND-36 questionnaire, the NRS-scale and the CCS-class.
This is a multicenter, randomized, double-blind, placebo-controlled clinical trial. Patients were treated with the trial drug or placebo in a 1:1 ratio. The control group was treated with placebo 4 pills / day, 3 times / day on the basis of conventional treatment until the end of follow-up, while the experimental group was treated with MUSK Pill 4 pills / day, 3 times / day on the basis of conventional treatment until the end of follow-up.
External Counterpulsation (ECP) is a non-invasive therapy using pressured cuff that is performed on patients with refractory stable angina pectoris to relieve symptoms and increase quality of life. In Indonesia, waiting time for getting coronary artery bypass grafting (CABG) procedure for revascularization treatment in stable angina pectoris patients is way longer than international recommendation which correlates with increase morbidity and mortality during the waiting time. Utilization of ECP for such patients who wait for CABG procedure is still unclear. The investigator aim to evaluate efficacy of addition of ECP compared with medical therapy alone for this population. The efficacy is evaluated using measurement from echocardiography result, treadmill test result, and clinical outcome. if applicable, examination of myocardial perfusion using nuclear examination will also be performed.
Prospective (analysis of retrospective data), multi-center, observational, single-arm study. This structure was selected as the "worst case" due to the fact that it represents real life usage of invasive FFR measurement is performed mostly in "gray zone" cases, which are that their severity cannot be determined intuitively and based on the physician eyeball. By using real-world historical data of invasive FFR, the analysis of the obtained data can ensure that the study results are expected to include invasive FFR results that are in the grey zone, when invasive FFR is used in real life and represent the real expected use of the product. Furthermore, the analysis of the data obtained in the studies with these similar devices measuring FFR obtained from angiograms was actually performed in a retrospective manner. That is, although the angiographic images and pressure wire recordings were obtained in real-time, due to the need to mark the vessel in real-time and obtain specific projections during the procedure without which the FFR cannot be calculated, the primary endpoint (sensitivity and specificity) and accuracy were determined in all studies by a post-hoc review by a similar independent QCA core laboratory. The invasive FFR data, as well as the software generated FFR data were reviewed post-hoc by a core laboratory or even at the company.
Emotional stress is associated with future cardiovascular events. However, the biological interconnection between brain emotional neural activity and acute plaque instability is not fully understood. Optical coherence tomography-Fluorescence Lifetime (OCT-FLIM) dual modal intravascular imaging is a novel technique that enables comprehensive assessment of structural and biochemical characteristics of coronary atheroma and estimates the level of plaque instability. 18F-fluorodeoxyglucose-positron emission tomography/computed tomography (18F-FDG-PET/CT) enables simultaneous estimation of multi-system activities including emotional stress, arterial inflammation, and hematopoiesis. The present study aims to prospectively investigate mechanistic linkage between coronary plaque instability, stress-associated neurobiological activity, and macrophage hematopoiesis using OCT-FLIM and 18F-FDG PET/CT imaging assessment.
Patients will undergo intracoronary imaging using combined optical coherence tomography-fluorescence lifetime imaging (OCT-FLIm) during percutaneous coronary intervention, and the obtained imaging data will be used to assess the efficacy of this dual-modal catheter imaging strategy in characterizing high-risk plaque.
Anginal symptoms due to ischaemia with no obstructive coronary arteries (INOCA) is a common clinical problem, however, diagnosis and onward management is heterogeneous, and prognosis is affected. Recent advances in quantifying myocardial blood flow using stress perfusion cardiac magnetic resonance imaging (CMR) has potential for accurate detection coronary microvascular dysfunction. The CorCMR diagnostic study involves stress perfusion CMR in patients with suspected INOCA to clarify the prevalence of subgroups of patients with underlying problems, such as microvascular disease or undisclosed obstructive coronary artery disease, that might explain their anginal symptoms. A nested, prospective, randomised, controlled, double-blind trial will determine whether stratified medical therapy guided by the results of the stress perfusion CMR improves symptoms, well-being, cardiovascular risk and health and economic outcomes.
Following unsuccessful CTO crossing a CTO modification procedure is sometimes performed. CTO PCI registries where plaque modification has been performed in some patients, report this to be safe, and associated with higher success rates at subsequent attempts. It has never been investigated whether a planned investment procedure, with an intention that both the initial and staged completion PCI are of shorter duration, could improve safety and efficacy. The investigators hypothesize that 1. A planned investment procedure in the treatment of CTOs will be associated with improved patient safety 2. A planned investment procedure will be associated with improved cumulative procedure success rates 3. A planned two stage procedure will be associated with improved patient experience
In a cohort of symptomatic patients referred to coronary computed tomography angiography (CCTA), the investigators aim is: 1. To investigate and compare the diagnostic precision of Rubidium Positron Emission Tomography (Rb PET) and 15O-water PET (15O-water PET) in patients where CCTA does not exclude obstructive coronary artery disease (CAD) using invasive coronary angiography with fractional flow reserve (ICA-FFR) as reference standard. 2. To study the diagnostic accuracy and prognostic value of computed tomography fractional flow reserve (CT-FFR) in patients where CCTA does not exclude obstructive CAD with ICA-FFR as reference standard. 3. To validated a pre-test probability model including genetic and circulating biomarkers. 4. To identify and characterize genetic risk variants and circulating biomarkers importance in developing CAD. 5. To evaluate the bone mineral density in the hip and spine and correlate this to the degree of vascular calcification.