George S. Abela scite author profile

A neglected area of cardiovascular research--study of the mechanisms of acute disease onset-is receiving increased attention. The new interest is based on the undisputed findings that onset of myocardial infarction and sudden cardiac death are more likely soon after awakening, indicating that activities of the patient frequently trigger the diseases. Triggering may occur when stressors produce hemodynamic, vasoconstrictive and prothrombotic forces--acute risk factors--that, in the presence of a vulnerable atherosclerotic plaque, cause plaque disruption and thrombosis. Triggering research may clarify mechanisms and suggest measures to sever the linkage between a potential trigger and its pathologic consequence.

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Effect of Cholesterol Crystals on Plaques and Intima in Arteries of Patients With Acute Coronary and Cerebrovascular Syndromes

Abela¹,

Aziz²,

Vedre³

et al. 2009

The American Journal of Cardiology

183

134

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Cholesterol crystal induced arterial inflammation and destabilization of atherosclerotic plaque

et al. 2015

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Evolution of plaque that is prone to rupture is characterized by inflammation and physical changes. Accumulation of low-density lipoprotein in the sub-intima provides esterified cholesterol (ESC) to macrophages and smooth muscle cells that convert it into free cholesterol (FRC) by cholesteryl ester hydrolases (CEHs). Membrane-bound cholesterol carriers transport FRC to high-density lipoprotein (HDL). Impaired HDL transport function and altered composition can lead to extracellular accumulation of FRC, whereas impaired membrane carrier activity can lead to intracellular FRC accumulation. Saturation of FRC can result in cholesterol crystallization with cell death and intimal injury. Disequilibrium between ESC and FRC can impact foam cell and cholesterol crystal (CC) formation. Cholesterol crystals initiate inflammation via NLRP3 inflammasome leading to interleukin-1β (IL-1β) production inducing C-reactive protein. Eventually, crystals growing from within the plaque and associated inflammation destabilize the plaque. Thus, inhibition of inflammation by antagonists to IL-1β or agents that dissolve or prevent CC formation may stabilize vulnerable plaques.

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Triggering of Plaque Disruption and Arterial Thrombosis in an Atherosclerotic Rabbit Model

Abela

Picon²,

Friedl³

et al. 1995

Circulation

134

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A suitable animal model is available for the study of plaque disruption and arterial thrombosis. Hypercholesterolemia and mechanical arterial wall injury seemed to produce plaques vulnerable to triggering of disruption and thrombosis, whereas normal arteries were relatively resistant to triggering. This model provides a method to evaluate agents that might decrease the occurrence of vulnerable plaques or the amount of thrombus formed after triggering. Most important, the model can be used to identify the features of vulnerable plaques and the pharmacological stressors that trigger plaque disruption and thrombus formation.

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George S. Abela

NLRP3 inflammasomes are required for atherogenesis and activated by cholesterol crystals

Triggers, acute risk factors and vulnerable plaques: The lexicon of a new frontier

Effect of Cholesterol Crystals on Plaques and Intima in Arteries of Patients With Acute Coronary and Cerebrovascular Syndromes

Cholesterol crystal induced arterial inflammation and destabilization of atherosclerotic plaque

Triggering of Plaque Disruption and Arterial Thrombosis in an Atherosclerotic Rabbit Model

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