A plaque is a regional thickening of the vessel wall caused by atherosclerosis. Plaques are covered by a fibrous cap and consist of LDL-cholesterol, collagen, smooth muscle cells collagen calcium and different cells (monocytes/macrophages, T lymphocytes, neutrophils and foam cells). Plaque can cause narrowing and occlusion of arteries. Carotid ultrasound allows us to detect and classify plaques (i.e. stable vs. instable, soft vs hard) and thereby assess cardiovascular risk. Plaque formation usually starts with fatty streaks and intima media thickening, which eventually leads to focal wall thickening with progressive narrowing of the artery (stenosis).
Plaque patho. Pathophysiology of atherosclerosis and plaque formation. Endothelial dysfunction allows LDL-c particles to enter the intima. Activation of endothelial receptors promote monocyte and T-helper cells to enter the intima. Monocytes take up the oxidized LDL-c particles and become macrophages and foam cells. Foam cells and spilled lipids promote smooth muscle cell migration into the intima and media. Cell necrosis occurs, the lipid core grows. The plaque, which is encased by a fibrous cap (collagen smooth muscle cells) is at risk of rupture.Note: Many atherosclerotic risk factors (hypertension, hyperlipidemia, diabetes) cause damage and dysfunction to the endothelium. This leads to expression of cell adhesion molecules, which allows leucocytes to enter the endothelium (pro-inflamatory effect).
The ASE (guidelines) and the European Manheim consensus defined plaques as “a focal wall thickening” measuring either 1,5 mm from the normal reference intima or a focal thickening that measures 50% more than the surrounding intima media complex.
Plaque measurements. Definition of a plaque: A plaque is present either if the focal wall thickening is more than 50% of the IMT or if the protrusion measures > 1,5mm
It is important to classify, describe and provide measurements of a plaque in your ultrasound report. This will allow you to assess the risk of the patient and to determine if a plaque grows over time. Plaque characterization is important to guide patients towards risk reduction and to optimize medical treatment. Plaque morphology is equally important for the surgeon and the interventionalist if endarterectomy or stenting is considered. Here are the different plaque characteristics that should assess and describe in your report:
FindingDescription LocationCCA/Bifurcation/ICA/ECA WallAnt/post/med/lat ExtentLength / width / shape (circular eccentric) EchogenicityAnechoic / isoechoic / hypoechoic /hyperechoic TextureHomogenous /heterogeneous SurfaceRegular / irregular / ulcerative
Plaques generally form at regions where local hemodynamic forces such as tensile stress (outward deforming force) and shear stress (friction/ force parallel to the vessel wall) are high. In the carotid artery this is the case in the region of the bifurcation and especially in the region of the bulb.
Note: This does not mean you should not image the more distal segments of the carotid artery!
Location of plaque graph. Graph demonstrating the distribution of plaque in the carotid artery Location of plaque ill. Illustration demonstrating the most common location of plaque and carotid artery stenosis in the carotid artery. The bifurcation and the proximal internal (ICA) and external carotid artery (ECA) are most commonly affected. Example plaque CCA. Example of an isolated plaque in the mid common carotid artery.
Patients with plaque (and stenosis) are at increased risk of stroke and cerebrovascular infarcts. Patients with a high plaque score (severe plaques) have a 10 fold increased risk for lacunar infarctions. Plaques can be the source of an embolus but also a marker of generalized atherosclerosis. Therefore carotid plaques are also associated with the presence of coronary artery disease, peripheral vascular disease and chronic kidney disease. Carotid ultrasound can be used to assess patients with suspected coronary artery disease to determine the likelihood for atherosclerotic disease.
Some plaques are at increased risk of plaque rupture, thrombosis and rapid progression. Much of the knowledge we have about vulnerability of plaques has actually been obtained from studies of coronary artery plaques. We now know that several factors such as active inflammation (macrophage-mediated), neo-vascularization (vessels growing into the plaque) and hemorrhage as well as hypoxia, and micro-calcification predispose to instability. While ultrasound does not provide histological information, we can obtain clues that point to higher versus lower stroke risk. The following characteristics are associated with the vulnerability of plaque:
Vasa vasorum (small vessels in the adventitia that supply the artery wall) can proliferate (angiogenesis) and grow into a plaque. The trigger for neo-vascularization is probably hypoxia, which occurs when the vessel thickens. Neo-vascularization is associated with intra-plaque hemorrhage and therefore contributes to plaque instability. Contrast enhanced ultrasound can be used to detect neo-vascularization. Using contrast ultrasound one can see the micro-bubbles of the contrast agent (blood flow) within the plaque.
An atheroscerotic plaques are covered by a fibrous lipid cap. Tension on this fibrous cap (tensile and shear stress) and/or instability within the plaque (i.e. inflammation, necrosis) can lead to rupture of the fibrous cap and plaque rupture. Lipid rich plaques with a thin cap with little collagen content are at increased risk. Rupture of a plaque leads to exposure of the thrombogenic core to the blood stream. This causes thrombus formation with the risk of:
Ruptured plaques can also heal. This process contributes to plaque growth calcification and plaque fibrosis.
Note: The risk of plaque rupture is related more to plaque morphology and composition than to plaque size or the degree of stenosis.
Plaque rupture. Pathomechanism of plaque rupture. Instable plaque characterized by a large lipid core rich in macrophages. Rupture of the plaque cap leads to exposure of the plaque content. This triggers a healing process characterized by clot formation.
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