The most explanatory risk factors include age, sex, pack-years of smoking, systolic blood pressure, diastolic blood pressure, antihypertensive and lipid-lowering medications, and diabetes mellitus status. An inclusion of less traditional risk factors such as LDL:HDL ratio, homocysteine levels, high school completion, white blood cell count and LDL cholesterol to the traditional model contributed only about additional 2%, explaining 23% of the variance in total carotid plaque burden at best. Therefore variation in subclinical carotid plaque burden is largely unexplained by known vascular
check details risk factors. These results suggest that other unaccounted factors, both environment and genetic, play an important role in the determination of subclinical atherosclerosis. Identification of these genetic and environmental factors underlying unexplained subclinical atherosclerosis is of great importance for successful prevention of stroke and cardiovascular disease, and is in the major focus for future investigations leading to genetic discoveries and new anti-atherosclerotic treatments. Carotid find more IMT and carotid plaque are significant predictors of vascular events and 2D ultrasound measurement of cIMT and carotid plaque is an inexpensive
way to detect individuals with increased atherosclerotic burden and risk of CVD, evaluate the effects of current and novel therapies and investigate new contributing factors. Many unaccounted factors, both environmental and genetic, may play an important role in the determination of atherosclerosis, underscoring the importance of further cIMT and carotid plaque research investigations for successful prevention and treatment of cardiovascular disease and stroke. “
“It is widely accepted
that the early carotid arterial wall disease is a useful predictor of the risk of both ischemic stroke and coronary heart disease in asymptomatic population [1]. The parameters of arterial wall elasticity properties should be employed as a surrogate marker to detect early stage of (-)-p-Bromotetramisole Oxalate vascular diseases. Increased artery wall stiffness and decreased arterial distensibility are accepted to be a common pathological mechanism for many factors associated with stroke, arterial hypertension, diabetes mellitus, hyperlipidemia and myocardial infarction [2] and [3]. Several quantitative or qualitative analysis methods for arterial wall function have been suggested. From them the most popular are the detection of flow-mediated dilatation (FMD) of brachial artery, assessment of peripheral arterial pressure waveforms, measurements of pulse wave velocity (PWV), measurements of arterial distensibility and stiffness with calculation of Young’s modulus of elasticity of wall material, wall thickness and blood density.