View clinical trials related to Coronary Artery Disease.
Filter by:A prospective multi-center, single arm feasibility study to assess the safety and performance of the Boston Scientific Fully Absorbable Scaffold.
The pilot study will investigate the usability of a mobile cycling application in a cardiac patient population during a one month study period. The application's effectiveness regarding ability to reduce fear and increase motivation to exercise will be assessed.
Usage of antiplatelet agents and cardiac procedures such as coronary angioplasty has dramatically improved the morbidity and mortality associated with coronary artery disease. In patients with a coronary stent, dual antiplatelet therapy is recommended. Aspirin is the main antiplatelet agent used. For many years, clopidogrel was the second antiplatelet of choice. Recent studies have revealed new antiplatelet drugs that can substitute clopidogrel, one of which is ticagrelor. The degree to which ticagrelor reduced the overall mortality compared to clopidogrel in the PLATO trial suggested that ticagrelor possibly has a pleiotropic effect and that the reduction in mortality is not simply due to its antiplatelet effects. The ticagrelor molecule resembles adenosine. Adenosine has been shown to be cardioprotective. The aim of this project is to study the effects of ticagrelor on the arterial system using a noninvasive method. The study will employ the measurement of peripheral endothelial function of patients who undergo percutaneous coronary intervention who are on ticagrelor vs. clopidogrel using a cross over trial design.
This study aims at combining inspiration breath-hold myocardial perfusion SPECT with coronary CT angiography.
There is a pressing need to find effective strategies for the prevention of contrast induced nephropathy in patients with advanced renal dysfunction. The current study was designed to assess the efficacy of a new protocol for preventing contrast induced nephropathy in patients with advanced renal dysfunction undergoing coronary interventions
It is well-known that non-optimal stent implantation associated with under-expansion or incomplete strut apposition during percutaneous coronary intervention (PCI) leads to a higher incidence of restenosis and stent thrombosis. OCT-guided PCI with metallic stent has previously been shown to be safe and feasible, resulting in better clinical outcomes compared with angiography-only guided PCI. Everolimus-eluting bioabsorbable vascular scaffold (BVS; Abbott Vascular, Santa Clara, CA, USA) was made from a bioabsorbable polylactic acid backbone which is coated with a more rapidly absorbed polylactic acid layer that contains and controls the release of the antiproliferative drug, everolimus. BVS has a number of proposed advantages over current metallic stent technology. These include elimination of chronic sources of vessel irritation and inflammation, which can reduce the potential risk of late scaffold thrombosis after complete scaffold bioresorption. Although the current generation of the Absorb BVS have larger strut thickness of 150 μm compared with 80 μm of strut of Xience stent, the acute recoil of the polymeric device was similar to that of metallic stent. However, operators tented to use dilating devices less aggressively because of the concerns about limitation in elongation-at-break of polylactide. Previous studies reported 20-30% of under-expansion or malapposition with BVS, which would increase the risk of adverse events including late stent thrombosis. OCT-guidance may improve more optimized scaffold placement and also better outcomes. Therefore, investigators will compare OCT guidance and angiography-only guidance for PCI with BVS regarding incomplete scaffold apposition and neointimal scaffold coverage. Investigators are also going to compare these two strategies regarding clinical outcomes with verification of the cut-off value by OCT-acquired uncovered scaffold rate.
Computed tomographic angiography (CTA) is an important prognostic tool with regard to the detection of coronary artery stenoses. Both iodine delivery rate (IDR; the amount of iodine delivered to the patient per second) and iodine concentration are decisive factors in the opacification of arterial vessels. There remains to be some debate in the literature about whether the use of high iodine concentration contrast media is beneficial compared to lower iodine concentrations. To date, there have not been any studies comparing intracoronary attenuation using concentrated contrast media lower than 300 mg I/ml at coronary CTA. For a reliable comparison of CM with different iodine concentrations, adapted injection protocols insuring an identical IDR (in g iodine per second) are mandatory. The investigators hypothesize that usage of lower iodine concentrations, while maintaining identical IDR and total iodine load, will result in comparable diagnostical intra-vascular attenuation in CTA.
The objective of this randomized controlled trial is to evaluate whether the investigators modernized IMPACT intervention for depression (eIMPACT), delivered before the onset of cardiovascular disease (CVD), reduces the risk of future CVD. Participants will be primary care patients who are depressed but do not have a history of CVD. Half of the participants will receive standard depression treatment in primary care (usual care), and the other half will receive one year of eIMPACT, a collaborative stepped care program including antidepressants and computerized and telephonic cognitive-behavioral therapy. To evaluate change in CVD risk, the investigators will measure artery function using ultrasound before and after the 1-year treatment period. It is hypothesized that patients who receive the eIMPACT intervention will have greater improvements in artery function than patients who receive usual care.
The aim of the study is to compare the CACS obtained from standard dose CT to the CACS obtained from ultra-low-dose scans. Additionally, the usefulness of ultra-low-dose CT for AC of myocardial perfusion SPECT will be assessed.
This study compares the results of current standard coagulation measurement devices to the Quantra System, a new device, using small amount of extra blood obtained during routine blood draws in cardiac surgery patients.