AIMS: Early atherosclerosis is located in low wall shear-stress (WSS) regions, however plaques are also found in the high WSS sensing flow divider walls of coronary bifurcations. We assessed the plaque distribution and morphology near bifurcations non-invasively with 64-slice computed tomography in relation to the WSS distribution. METHODS AND RESULTS: We inspected 65 cross-sections near coronary bifurcations for the presence of plaque. Cross-sections were divided into four equal parts, which we numbered according to expected levels of WSS, with part I the lowest WSS (outer wall) and increasing WSS's in part II (inner bend), III (outer bend) and IV (flow divider). Of the cross-sections 88% had plaque. Of all parts I, 72% contained plaque. This was 62%, 38% and 31% in parts II, III and IV. In cross-sections with only 1 or 2 parts inflicted, plaque was found in part I and/or II in 94%. In 93% of the cross-sections with the flow divider inflicted, parts I and/or II were also inflicted. Plaque was never found exclusively in the flow divider part IV. CONCLUSIONS: We demonstrated that plaque is mostly present in low WSS regions, whereas plaque in high WSS regions is accompanied by plaque in adjacent low WSS regions. It is therefore plausible that plaque grows from the outer wall (low WSS) of the bifurcation towards the flow divider (high WSS).
AIMS: Early atherosclerosis is located in low wall shear-stress (WSS) regions, however plaques are also found in the high WSS sensing flow divider walls of coronary bifurcations. We assessed the plaque distribution and morphology near bifurcations non-invasively with 64-slice computed tomography in relation to the WSS distribution. METHODS AND RESULTS: We inspected 65 cross-sections near coronary bifurcations for the presence of plaque. Cross-sections were divided into four equal parts, which we numbered according to expected levels of WSS, with part I the lowest WSS (outer wall) and increasing WSS's in part II (inner bend), III (outer bend) and IV (flow divider). Of the cross-sections 88% had plaque. Of all parts I, 72% contained plaque. This was 62%, 38% and 31% in parts II, III and IV. In cross-sections with only 1 or 2 parts inflicted, plaque was found in part I and/or II in 94%. In 93% of the cross-sections with the flow divider inflicted, parts I and/or II were also inflicted. Plaque was never found exclusively in the flow divider part IV. CONCLUSIONS: We demonstrated that plaque is mostly present in low WSS regions, whereas plaque in high WSS regions is accompanied by plaque in adjacent low WSS regions. It is therefore plausible that plaque grows from the outer wall (low WSS) of the bifurcation towards the flow divider (high WSS).
Authors: Jacopo Burrello; Guglielmo Gallone; Alessio Burrello; Daniele Jahier Pagliari; Eline H Ploumen; Mario Iannaccone; Leonardo De Luca; Paolo Zocca; Giuseppe Patti; Enrico Cerrato; Wojciech Wojakowski; Giuseppe Venuti; Ovidio De Filippo; Alessio Mattesini; Nicola Ryan; Gérard Helft; Saverio Muscoli; Jing Kan; Imad Sheiban; Radoslaw Parma; Daniela Trabattoni; Massimo Giammaria; Alessandra Truffa; Francesco Piroli; Yoichi Imori; Bernardo Cortese; Pierluigi Omedè; Federico Conrotto; Shao-Liang Chen; Javier Escaned; Rosaly A Buiten; Clemens Von Birgelen; Paolo Mulatero; Gaetano Maria De Ferrari; Silvia Monticone; Fabrizio D'Ascenzo Journal: J Pers Med Date: 2022-06-17
Authors: Parham Eshtehardi; Michael C McDaniel; Jin Suo; Saurabh S Dhawan; Lucas H Timmins; José Nilo G Binongo; Lucas J Golub; Michel T Corban; Aloke V Finn; John N Oshinski; Arshed A Quyyumi; Don P Giddens; Habib Samady Journal: J Am Heart Assoc Date: 2012-08-24 Impact factor: 5.501
Authors: Bjarne Linde Nørgaard; Jonathon Leipsic; Bon-Kwon Koo; Christopher K Zarins; Jesper Møller Jensen; Niels Peter Sand; Charles A Taylor Journal: Curr Cardiovasc Imaging Rep Date: 2016-01-05
Authors: Frank Gijsen; Yuki Katagiri; Peter Barlis; Christos Bourantas; Carlos Collet; Umit Coskun; Joost Daemen; Jouke Dijkstra; Elazer Edelman; Paul Evans; Kim van der Heiden; Rod Hose; Bon-Kwon Koo; Rob Krams; Alison Marsden; Francesco Migliavacca; Yoshinobu Onuma; Andrew Ooi; Eric Poon; Habib Samady; Peter Stone; Kuniaki Takahashi; Dalin Tang; Vikas Thondapu; Erhan Tenekecioglu; Lucas Timmins; Ryo Torii; Jolanda Wentzel; Patrick Serruys Journal: Eur Heart J Date: 2019-11-01 Impact factor: 29.983