BACKGROUND AND PURPOSE: Definitions for chronic lacunar infarcts vary. Recent retrospective studies suggest that many acute lacunar strokes do not develop a cavitated appearance. We determined the characteristics of acute lacunar infarcts on follow-up MRI in consecutive patients participating in prospective research studies. METHODS: Patients with acute lacunar infarction on diffusion-weighted imaging were selected from 3 prospective cohort studies of minor stroke imaged within <24 hours of onset. Follow-up MRI was performed at 30 days (Vascular Imaging of Acute Stroke for Identifying Predictors of Clinical Outcome and Recurrent Ischemic Events [VISION] study, n=21) or 90 days (VISION-2 and CT and MRI in the Triage of TIA and Minor Cerebrovascular Events to Identify High Risk Patients [CATCH] studies, n=34). Evidence of cavitation on MRI was rated separately on fluid-attenuated inversion recovery, T1, and T2 sequences by 2 independent study physicians; discrepant readings were resolved by consensus. RESULTS: Probable or definite cavitation on any sequence was more common at 90 days compared with 30 days (P≤0.001 for all sequences). At 90 days, evidence of cavitation was seen on at least 1 sequence in 33 of 34 patients (97%). The T1-weighted sequence was most sensitive to the presence of cavitation (94% at 90 days). By contrast, the fluid-attenuated inversion recovery sequence frequently failed to show evidence of cavitation in the brain stem or thalamus (only 10 of 18 [56%] showed cavitation). CONCLUSIONS: MRI scanning at 90 days with T1-weighted imaging reveals evidence of cavitation in nearly all cases of acute lacunar infarction. By contrast, reliance on fluid-attenuated inversion recovery alone will miss many cavitated lesions in the thalamus and brain stem. These factors should be taken into account in the development of standardized criteria for lacunar infarction on MRI.
BACKGROUND AND PURPOSE: Definitions for chronic lacunar infarcts vary. Recent retrospective studies suggest that many acute lacunar strokes do not develop a cavitated appearance. We determined the characteristics of acute lacunar infarcts on follow-up MRI in consecutive patients participating in prospective research studies. METHODS:Patients with acute lacunar infarction on diffusion-weighted imaging were selected from 3 prospective cohort studies of minor stroke imaged within <24 hours of onset. Follow-up MRI was performed at 30 days (Vascular Imaging of Acute Stroke for Identifying Predictors of Clinical Outcome and Recurrent Ischemic Events [VISION] study, n=21) or 90 days (VISION-2 and CT and MRI in the Triage of TIA and Minor Cerebrovascular Events to Identify High Risk Patients [CATCH] studies, n=34). Evidence of cavitation on MRI was rated separately on fluid-attenuated inversion recovery, T1, and T2 sequences by 2 independent study physicians; discrepant readings were resolved by consensus. RESULTS: Probable or definite cavitation on any sequence was more common at 90 days compared with 30 days (P≤0.001 for all sequences). At 90 days, evidence of cavitation was seen on at least 1 sequence in 33 of 34 patients (97%). The T1-weighted sequence was most sensitive to the presence of cavitation (94% at 90 days). By contrast, the fluid-attenuated inversion recovery sequence frequently failed to show evidence of cavitation in the brain stem or thalamus (only 10 of 18 [56%] showed cavitation). CONCLUSIONS: MRI scanning at 90 days with T1-weighted imaging reveals evidence of cavitation in nearly all cases of acute lacunar infarction. By contrast, reliance on fluid-attenuated inversion recovery alone will miss many cavitated lesions in the thalamus and brain stem. These factors should be taken into account in the development of standardized criteria for lacunar infarction on MRI.
Authors: Harmanvir Ghuman; Madeline Gerwig; Francesca J Nicholls; Jessie R Liu; Julia Donnelly; Stephen F Badylak; Michel Modo Journal: Acta Biomater Date: 2017-09-13 Impact factor: 8.947
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Authors: Marco Duering; Ruth Adam; Frank A Wollenweber; Anna Bayer-Karpinska; Ebru Baykara; Leidy Y Cubillos-Pinilla; Benno Gesierich; Miguel Á Araque Caballero; Sophia Stoecklein; Michael Ewers; Ofer Pasternak; Martin Dichgans Journal: J Cereb Blood Flow Metab Date: 2019-07-25 Impact factor: 6.200
Authors: Marco Duering; Ruthger Righart; Frank Arne Wollenweber; Vera Zietemann; Benno Gesierich; Martin Dichgans Journal: Neurology Date: 2015-03-25 Impact factor: 9.910
Authors: Daniela Pinter; Thomas Gattringer; Christian Enzinger; Thomas Seifert-Held; Markus Kneihsl; Simon Fandler; Alexander Pichler; Christian Barro; Sebastian Eppinger; Lukas Pirpamer; Gerhard Bachmaier; Stefan Ropele; Joanna M Wardlaw; Jens Kuhle; Michael Khalil; Franz Fazekas Journal: J Cereb Blood Flow Metab Date: 2018-05-08 Impact factor: 6.200