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Hemodynamic basis of atherosclerosis
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In this article, the authors considered the reactive biological response of blood vessels to the effect of the laws of fluid mechanics at sites of predilection determined by local hydraulic conditions in the circulatory system.Abstract:
The laws of fluid mechanics apply to the natural conditions in the circulatory system as they apply to any hydraulic system. The effect of the laws of fluid dynamics is considered the primary factor in the development of atherosclerosis because it alone can account for the localization and progressive development of atherosclerotic lesions at specific areas of predilection characterized by curvature, branching, external attachment, or tapering. While such vascular configurations occur in many variations of geometry or anatomical pattern with corresponding variations in patterns of blood flow, their common feature is the production of localized segmental zones of diminished lateral pressure. The diminished lateral pressure or suction effect which occurs in some phase of pulsatile flow in the cardiac cycle is the initial stimulus which produces intimal proliferation as the first change in the progressive development of atherosclerosis. Atherosclerosis may therefore be considered the reactive biological response of blood vessels to the effect of the laws of fluid mechanics at sites of predilection determined by local hydraulic conditions in the circulatory system.read more
Citations
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The NF-kappa B signal transduction pathway in aortic endothelial cells is primed for activation in regions predisposed to atherosclerotic lesion formation.
TL;DR: Preferential regional activation of endothelial NF-kappaB by systemic stimuli, including hypercholesterolemia, may contribute to the localization of atherosclerotic lesions at sites with high steady-state expression levels of NF- kappaB/Ikappa B components.
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Free-radical theory of aging. Increasing the functional life span.
TL;DR: The extensive studies based on this possibility hold promise that the ALE-B can be extended to >85 years and the maximum life span increased.
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Effects of Disturbed Flow on Endothelial Cells
TL;DR: Understanding of the EC responses to different flow patters helps to elucidate the mechanism of the region-specific localization of atherosclerosis in the arterial system.
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Pressure-induced arterial wall stress and atherosclerosis.
TL;DR: The hypothesis that high wall stress and accompanying stretch, particularly that caused by arterial pressure, are the primary factors responsible for the topography of atherosclerotic lesions is presented and the phenomenon of "stress concentration" in the artery wall is described.
References
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Journal ArticleDOI
A hemodynamic concept of atherosclerosis, with particular reference to coronary occlusion.
TL;DR: Hemodynamic atherosclerotic lesions occurred in more than one location in 90% of cases examined and the incidence and degree of atherosclerosis at typical areas of predilection have been recorded in 100 consecutive autopsied cases.
Journal ArticleDOI
The role of vascular dynamics in the development of atherosclerosis.
TL;DR: This report identifies the inception and progressive pathology of atherosclerosis resulting from the effects of hydraulic forces inherent in the circulatory system as determined by hydraulic forces.