Ultrasound Elastography for Individual Carotid Plaque Stratification

Carotid Artery Plaque

Ultrasound, Shear wave elastrography, Lipid-lowering medication, Atherosclerotic plaques

Ischemic strokes are a leading cause of death and disability worldwide. In 20% of cases they are caused by the rupture of atherosclerotic plaques in carotid arteries. Risk estimation of plaque rupture is currently suboptimal. Although pathology studies have shown that plaque composition provides a better risk assessment (lipid-rich core with thin fibrous cap = high risk (unstable plaque); fibrous core and a thick fibrous cap = low risk (stable plaque)), plaque composition cannot be determined using imaging techniques, and can therefore not be assessed non-invasively. Ultrasound, which is already widely used in clinical practice to determine plaque geometry could be an optimal technique to determine plaque composition and monitor plaques in a large population, due to its low patient burden, relatively low cost and speed of measurement. However, using conventional ultrasound it is not possible to reliably determine plaque composition. However, this might be possible using newly developed ultrasound functionalities(shear wave and strain elastography) enabling tissue stiffness estimation. It is known that recurrence risk is greatest in the first week after a stroke or transient ischemic attack (TIA) and decreases afterwards, probably due to a stabilization of the plaque due to a change in composition. Additionally, lipid-lowering medication is known to further reduce the recurrence risk after such an event, probably due to an acceleration of the stabilization process of the plaque. In this study, the investigators want to investigate whether Ultra-COMPASS ultrasound measurements (a combination of shear wave and strain elastography and ultrafast compounding (a fast variant of standard anatomical ultrasound to determine plaque geometry)) could be used to determine changes in plaque composition after a stroke / TIA. Primary objective: Investigate whether it is possible to detect plaque stabilization, determined by plaque stiffness, after a brain infarction or transient ischemic attack with Ultra-COMPASS ultrasound measurements. Secundary objectives: * Determine the association between (changes in) Ultra-COMPASS measurements and the lipid-lowering drugs used 6 and 12 weeks after ischemic stroke. * Determine the association between Ultra-COMPASS measurements and recurrent cardiovascular events (TIA / cerebral infarction / myocardial infarction/death) 6 and 12 weeks after ischemic stroke. * Determine the association between Ultra-COMPASS measurements and (changes in) low-density lipoprotein levels 6 and 12 weeks after ischemic stroke (if known). Study design: This is a prospective, longitudinal, observational, single-center cohort study in patients after a cerebral infarction or TIA with stenosis of one / both carotid arteries of 30-70% that receive or start withcholesterol-lowering medication. Ultra-COMPASS measurements will be taken within 7 days after brain infarction/TIA and at 6 ± 1 and after 12 ± 1 weeks in both carotid arteries to see if plaques stabilize overtime and to what extent medication stimulates a beneficial change in plaque composition.

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