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CARDIOLOGISTS IN YELAHANKA NEWTOWN BANGALORE Plaque rupture Plaque rupture may be at least partly an inflammatory process involving inflammatory cells, cytokines and even bacteria. This may explain the association between inflammatory markers such as high-sensitivity C reactive protein (hsCRP) and a risk of acute coronary events. Although this association seems well established, there is still uncertainty about its role in overall risk assessment Plaques at risk of rupture are called vulnerable plaques. They typically have a thin fibrous cap. The shoulder regions of these caps are at risk of rupturing and allowing material from within the plaque to come in contact with the blood stream. This material is intensely thrombogenic. Stable fibrous plaques are much less likely to rupture in this way. Efforts are underway to develop tests that can identify vulnerable plaques. This is not yet possible, but multi-slice CT scanning and possibly MRI angiography may i
diabetologists in hebbal bangalore rPlaque rupture Plaque rupture may be at least partly an inflammatory process involving inflammatory cells, cytokines and even bacteria. This may explain the association between inflammatory markers such as high-sensitivity C reactive protein (hsCRP) and a risk of acute coronary events. Although this association seems well established, there is still uncertainty about its role in overall risk assessment Plaques at risk of rupture are called vulnerable plaques. They typically have a thin fibrous cap. The shoulder regions of these caps are at risk of rupturing and allowing material from within the plaque to come in contact with the blood stream. This material is intensely thrombogenic. Stable fibrous plaques are much less likely to rupture in this way. Efforts are underway to develop tests that can identify vulnerable plaques. This is not yet possible, but multi-slice CT scanning and possibly MRI angiography may increasingly be able to provide information about plaque composition.
diabetologists in hebbal bangalore rPlaque rupture Plaque rupture may be at least partly an inflammatory process involving inflammatory cells, cytokines and even bacteria. This may explain the association between inflammatory markers such as high-sensitivity C reactive protein (hsCRP) and a risk of acute coronary events. Although this association seems well established, there is still uncertainty about its role in overall risk assessment Plaques at risk of rupture are called vulnerable plaques. They typically have a thin fibrous cap. The shoulder regions of these caps are at risk of rupturing and allowing material from within the plaque to come in contact with the blood stream. This material is intensely thrombogenic. Stable fibrous plaques are much less likely to rupture in this way. Efforts are underway to develop tests that can identify vulnerable plaques. This is not yet possible, but multi-slice CT scanning and possibly MRI angiography may increasingly be able to provide information about plaque composition.
THE BEST CARDIOLOGISTS IN GANGAMMA CIRCLE BANGALORE Thrombogenic factors Thrombosis is an important pathological process in coronary artery disease. Factors increasing the tendency to thrombosis include: n smoking n hypertriglyceridaemia n elevated fibrinogen (possibly) n oestrogen-containing contraceptive pills n polycythaemia n increased von Willebrand factor (a marker of endothelial dysfunction). The following factors are associated with reduced thrombotic tendency: n low-dose aspirin n other anti-platelet drugs (e.g. clopidogrel) n fish oils and mono-unsaturated fatty acids. Alcohol intake Alcohol intake has a complex relationship with coronary heart disease, with moderate intake being associated with decreased risk, and nil or heavy intake being associated with increased risk. Moderate intake is defined as 10–30 g per day for men; the optimal level for women is uncertain and alcohol may not have the same protective effect for women. Moderate alcohol intake is thought to be protective by: n increasing HDL levels n having anti-platelet activity n having an anti-oxidant effect—some components of alcoholic drinks, especially red wine and possibly beer. The evidence for the protective effect of alcohol is not strong and non-drinkers should never be urged to take up drinking. Hypertension and cerebrovascular disease increase in a linear fashion with alcohol intake, as do triglyceride levels. Therefore the beneficial effects of alcohol intake on coronary disease occur only at moderate intakes, and for those patients with hypertension, hypertriglyceridaemia or cerebrovascular disease, alcohol intake probably does not confer benefit.
HEART SPECIALISTS IN YELAHANKA NEW TOWN BANGALORE The causes of coronary symptoms The symptoms of coronary artery disease are caused by the reduction of myocardial perfusion that results from narrowing of the lumen of one or more of the coronary arteries. This narrowing is most often the result of atherosclerosis. Other much less common causes include: 1 coronary artery spasm (often in an already diseased segment of artery but sometimes as a result of the use of cocaine) 2 thrombosis (usually on an already diseased, or occasionally aneurismal, segment) 3 embolism (e.g. from an infected aortic valve) 4 congenital coronary abnormality 5 vasculitis. Numerous other cardiac symptoms and problems can be the eventual result of atheromatous coronary disease. These include myocardial infarction , cardiac failure cardiac arrhythmias and some cardiac valve problems. Risk factor mechanisms of action Atherosclerosis is thought to result primarily from a disturbance of the vascular endothelium. The final common pathway for the effects of endothelial dysfunction is largely through abnormalities of nitric oxide (NO) production. This chemical, released by a healthy endothelium, is a potent vasodilator and has anti-inflammatory and other favourable actions on the arteries. Causes of this disturbance can be: n mechanical (hypertension) n chemical (oxidised lipids, components of cigarette smoke, hyperinsulinaemia) or n due to immunological injury. The damaged endothelium attracts inflammatory mediators, platelets and circulating lipids and promotes fibroblast and smooth muscle proliferation. This results in the formation of a plaque, which may narrow the arterial lumen. Plaques can remain stable (or sometimes regress), enlarge, rupture or erode (more common in diabetics). Most acute ischaemic events (acute coronary syndromes or acute myocardial infarctions) are thought to be the result of further luminal narrowing caused by the formation of partly or fully occlusive thrombus on a ruptured or eroded plaque. Coronary risk factors may therefore operate because they are atherogenic or thrombogenic. Plaque rupture Plaque rupture may be at least partly an inflammatory process involving inflammatory cells, cytokines and even bacteria. This may explain the association between inflammatory markers such as high-sensitivity C reactive protein (hsCRP) and a risk of acute coronary events. Although this association seems well established, there is still uncertainty about its role in overall risk assessment Plaques at risk of rupture are called vulnerable plaques. They typically have a thin fibrous cap. The shoulde of these caps are at risk of rupturing and allowing material from within the plaque to come
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