BACKGROUND AND PURPOSE: To investigate the incidence of retrograde flow from complex plaques (> or =4-mm-thick, ulcerated, or superimposed thrombi) of the descending aorta (DAo) and its potential role in embolic stroke. METHODS: Ninety-four consecutive acute stroke patients with aortic plaques > or =3-mm-thick in transesophageal echocardiography were prospectively included. MRI was performed to localize complex plaques and to measure time-resolved 3-dimensional blood flow within the aorta. Three-dimensional visualization was used to evaluate if diastolic retrograde flow connected plaque location with the outlet of the left subclavian artery, left common carotid artery, or brachiocephalic trunk. Complex DAo plaques were considered an embolic source if retrograde flow reached a supra-aortic vessel that supplied the territory of visible acute and embolic retinal or cerebral infarction. RESULTS: Only decreasing heart rate was correlated (P<0.02) with increasing flow reversal to the aortic arch. Retrograde flow from complex DAo plaques reached the left subclavian artery in 55 (58.5%), the left common carotid artery in 23 (24.5%), and the brachiocephalic trunk in 13 patients (13.8%). Based on routine diagnostics and MRI of the ascending aorta/aortic arch, stroke etiology was determined in 57 and cryptogenic in 37 patients. Potential embolization from DAo plaques was then identified in 19 of 57 patients (33.3%) with determined and in 9 of 37 patients (24.3%) with cryptogenic stroke. CONCLUSIONS: Retrograde flow from complex DAo plaques was frequent in both determined and cryptogenic stroke and could explain embolism to all brain territories. These findings suggest that complex DAo plaques should be considered a new source of stroke.
BACKGROUND AND PURPOSE: To investigate the incidence of retrograde flow from complex plaques (> or =4-mm-thick, ulcerated, or superimposed thrombi) of the descending aorta (DAo) and its potential role in embolic stroke. METHODS: Ninety-four consecutive acute strokepatients with aortic plaques > or =3-mm-thick in transesophageal echocardiography were prospectively included. MRI was performed to localize complex plaques and to measure time-resolved 3-dimensional blood flow within the aorta. Three-dimensional visualization was used to evaluate if diastolic retrograde flow connected plaque location with the outlet of the left subclavian artery, left common carotid artery, or brachiocephalic trunk. Complex DAo plaques were considered an embolic source if retrograde flow reached a supra-aortic vessel that supplied the territory of visible acute and embolic retinal or cerebral infarction. RESULTS: Only decreasing heart rate was correlated (P<0.02) with increasing flow reversal to the aortic arch. Retrograde flow from complex DAo plaques reached the left subclavian artery in 55 (58.5%), the left common carotid artery in 23 (24.5%), and the brachiocephalic trunk in 13 patients (13.8%). Based on routine diagnostics and MRI of the ascending aorta/aortic arch, stroke etiology was determined in 57 and cryptogenic in 37 patients. Potential embolization from DAo plaques was then identified in 19 of 57 patients (33.3%) with determined and in 9 of 37 patients (24.3%) with cryptogenic stroke. CONCLUSIONS: Retrograde flow from complex DAo plaques was frequent in both determined and cryptogenic stroke and could explain embolism to all brain territories. These findings suggest that complex DAo plaques should be considered a new source of stroke.
Authors: Florian Schuchardt; Laure Schroeder; Constantin Anastasopoulos; Michael Markl; Jochen Bäuerle; Anja Hennemuth; Johann Drexl; José M Valdueza; Irina Mader; Andreas Harloff Journal: Eur Radiol Date: 2015-02-01 Impact factor: 5.315
Authors: Jerome L Fleg; Gregg W Stone; Zahi A Fayad; Juan F Granada; Thomas S Hatsukami; Frank D Kolodgie; Jacques Ohayon; Roderic Pettigrew; Marc S Sabatine; Guillermo J Tearney; Sergio Waxman; Michael J Domanski; Pothur R Srinivas; Jagat Narula Journal: JACC Cardiovasc Imaging Date: 2012-09
Authors: Xin Shen; Susanne Schnell; Alex J Barker; Kenichiro Suwa; Lingzi Tashakkor; Kelly Jarvis; James C Carr; Jeremy D Collins; Shyam Prabhakaran; Michael Markl Journal: J Magn Reson Imaging Date: 2017-09-18 Impact factor: 4.813
Authors: Jeffrey J Goldberger; Rishi Arora; David Green; Philip Greenland; Daniel C Lee; Donald M Lloyd-Jones; Michael Markl; Jason Ng; Sanjiv J Shah Journal: Circulation Date: 2015-07-28 Impact factor: 29.690