INTRODUCTION: The clinical efficacy of thrombolysis in stroke patients is explained by the increased rate of recanalization, which limits infarct growth. However, the efficacy could also be explained by the protection of specific sites of the brain. Here, we investigate where is this outcome-related tissue at risk using voxel-based analysis. METHODS: We included 68 acute stroke patients with middle cerebral artery (MCA) occlusion on the admission MRI performed within 6 h of symptoms onset (H6) and 16 controls. MCA recanalization was assessed using the magnetic resonance angiography performed at day 1 (D1). Apparent diffusion coefficient (ADC) changes were analyzed using a voxel-based method between patients vs. controls group at admission (H6) in non-recanalized vs. recanalized and in 3-month poor vs. good outcome patients at D1. RESULTS: Complete or partial MCA recanalization was observed in 52 of 68 patients. Good outcome at 3 months occurred in 40 patients (59%). In non-recanalized patients, ADC was decreased in the deep MCA and watershed arterial territory (the lenticular nucleus, internal capsule, and the overlying periventricular white matter). This decrease was not observed in recanalized patients at D1 or patients at H6. Fiber tracking suggested that the area is crossed by the cortico-spinal, cerebellar, and intra-hemispheric association tracts. Finally, this area almost co-localized with the area associated with poor outcome. CONCLUSIONS: A clinically relevant area of tissue at risk may occur in patients with MCA infarcts at the level of deep white matter fiber tracts. These findings suggest that neuroprotection research should be refocused on white matter.
INTRODUCTION: The clinical efficacy of thrombolysis in strokepatients is explained by the increased rate of recanalization, which limits infarct growth. However, the efficacy could also be explained by the protection of specific sites of the brain. Here, we investigate where is this outcome-related tissue at risk using voxel-based analysis. METHODS: We included 68 acute strokepatients with middle cerebral artery (MCA) occlusion on the admission MRI performed within 6 h of symptoms onset (H6) and 16 controls. MCA recanalization was assessed using the magnetic resonance angiography performed at day 1 (D1). Apparent diffusion coefficient (ADC) changes were analyzed using a voxel-based method between patients vs. controls group at admission (H6) in non-recanalized vs. recanalized and in 3-month poor vs. good outcome patients at D1. RESULTS: Complete or partial MCA recanalization was observed in 52 of 68 patients. Good outcome at 3 months occurred in 40 patients (59%). In non-recanalized patients, ADC was decreased in the deep MCA and watershed arterial territory (the lenticular nucleus, internal capsule, and the overlying periventricular white matter). This decrease was not observed in recanalized patients at D1 or patients at H6. Fiber tracking suggested that the area is crossed by the cortico-spinal, cerebellar, and intra-hemispheric association tracts. Finally, this area almost co-localized with the area associated with poor outcome. CONCLUSIONS: A clinically relevant area of tissue at risk may occur in patients with MCA infarcts at the level of deep white matter fiber tracts. These findings suggest that neuroprotection research should be refocused on white matter.
Authors: C Rosso; O Colliot; C Pires; C Delmaire; R Valabrègue; S Crozier; D Dormont; S Baillet; Y Samson; S Lehéricy Journal: J Neuroradiol Date: 2010-08-21 Impact factor: 3.447
Authors: Oh Young Bang; Jeffrey L Saver; Suk Jae Kim; Gyeong-Moon Kim; Chin-Sang Chung; Bruce Ovbiagele; Kwang Ho Lee; David S Liebeskind Journal: Stroke Date: 2011-01-13 Impact factor: 7.914
Authors: Yince Loh; Amytis Towfighi; David S Liebeskind; David L MacArthur; Paul Vespa; Nestor R Gonzalez; Satoshi Tateshima; Sidney Starkman; Jeffrey L Saver; Zhong-Song Shi; Reza Jahan; Fernando Viñuela; Gary R Duckwiler Journal: Stroke Date: 2009-08-06 Impact factor: 7.914
Authors: Tudor G Jovin; Howard Yonas; James M Gebel; Emanuel Kanal; Yue Fang Chang; Stephen Z Grahovac; Steven Goldstein; Lawrence R Wechsler Journal: Stroke Date: 2003-09-18 Impact factor: 7.914
Authors: Jens Fiehler; Michael Söderman; Francis Turjman; Philip M White; Søren Jacob Bakke; Salvatore Mangiafico; Rüdiger von Kummer; Mario Muto; Christophe Cognard; Jan Gralla Journal: Neuroradiology Date: 2012-09-05 Impact factor: 2.804
Authors: C Leiva-Salinas; A Aghaebrahim; G Zhu; J T Patrie; W Xin; B C Lau; T Jovin; M Wintermark Journal: Neuroradiology Date: 2013-04-05 Impact factor: 2.804
Authors: Dezhi Liu; Yongkun Li; Zhaorong Shi; Stephen M Davis; Ka Sing Wong; Thomas W Leung; Bernard Yan; Yunyun Xiong; Wen Sun; Gelin Xu; Renliang Zhang; Xinfeng Liu Journal: Neuroradiology Date: 2014-09-09 Impact factor: 2.804