PURPOSE OF REVIEW: Despite the important progress in identifying high-risk atherosclerotic plaques, many key elements are elusive. Advanced imaging modalities provide valuable information about the anatomic and functional plaque characteristics and underscore the presence of multiple plaque morphologies. However, how the heterogeneity of atherosclerotic plaque can alter our current understanding of coronary artery disease is not fully understood. RECENT FINDINGS: Along the length of an individual plaque, the morphology patterns display marked heterogeneity. Contrary to previous beliefs, plaque morphology is also highly dynamic over time, with the vast majority of high-risk plaques becoming quiescent and mild plaques becoming severely obstructive in a short period of time. Endothelial shear stress, a local hemodynamic factor known for its critical effects in plaque initiation and progression, also displays longitudinal heterogeneity contributing to the arterial wall response in all time points. Risk stratification of plaques based on the morphological characteristics at one region of the plaque, usually the minimal lumen diameter, and at one point in time may be misleading. The evaluation of both morphological and hemodynamic characteristics along the length of a plaque will improve the risk assessment of individual plaques.
PURPOSE OF REVIEW: Despite the important progress in identifying high-risk atherosclerotic plaques, many key elements are elusive. Advanced imaging modalities provide valuable information about the anatomic and functional plaque characteristics and underscore the presence of multiple plaque morphologies. However, how the heterogeneity of atherosclerotic plaque can alter our current understanding of coronary artery disease is not fully understood. RECENT FINDINGS: Along the length of an individual plaque, the morphology patterns display marked heterogeneity. Contrary to previous beliefs, plaque morphology is also highly dynamic over time, with the vast majority of high-risk plaques becoming quiescent and mild plaques becoming severely obstructive in a short period of time. Endothelial shear stress, a local hemodynamic factor known for its critical effects in plaque initiation and progression, also displays longitudinal heterogeneity contributing to the arterial wall response in all time points. Risk stratification of plaques based on the morphological characteristics at one region of the plaque, usually the minimal lumen diameter, and at one point in time may be misleading. The evaluation of both morphological and hemodynamic characteristics along the length of a plaque will improve the risk assessment of individual plaques.
Authors: Vikas Thondapu; Christos V Bourantas; Nicolas Foin; Ik-Kyung Jang; Patrick W Serruys; Peter Barlis Journal: Eur Heart J Date: 2017-01-07 Impact factor: 29.983
Authors: Omar Dzaye; Alexander C Razavi; Zeina A Dardari; Daniel S Berman; Matthew J Budoff; Michael D Miedema; Olufunmilayo H Obisesan; Ellen Boakye; Khurram Nasir; Alan Rozanski; John A Rumberger; Leslee J Shaw; Martin Bødtker Mortensen; Seamus P Whelton; Michael J Blaha Journal: JACC Cardiovasc Imaging Date: 2021-11-17
Authors: James A Hamilton; Hatice Hasturk; Alpdogan Kantarci; Charles N Serhan; Thomas Van Dyke Journal: Curr Atheroscler Rep Date: 2017-11-06 Impact factor: 5.113
Authors: Kuat Oshakbayev; Bibazhar Dukenbayeva; Gulnar Togizbayeva; Meruyert Gazaliyeva; Alma Syzdykova; Kanat Daurenbekov; Pernekul Issa Journal: BBA Clin Date: 2017-05-30