The study of cerebral blood flow perfusion imaging in language related brain areas of post stroke aphasia patients
10.3760/cma.j.cn113694-20200305-00148
- VernacularTitle:卒中后失语患者语言相关脑区的脑血流灌注影像研究
- Author:
Jing YE
1
;
Desheng SHANG
;
Jie ZHANG
;
Yamei YU
;
Xiangming YE
;
Benyan LUO
Author Information
1. 浙江大学医学院附属第一医院神经内科,杭州 30003
- From:
Chinese Journal of Neurology
2020;53(9):664-671
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To evaluate and quantify the degree of language impairment by obtaining the cerebral blood flow in the main language functional areas of aphasia patients after stroke with arterial spin labeling sequence, so as to make aphasia evaluation more objectively, accurately and effectively.Methods:From May 2016 to October 2019, 22 patients with aphasia after stroke and 22 healthy controls were collected from the Department of Neurology, the First Affiliated Hospital of Zhejiang University, for multimode MR scanning, and the patients were evaluated by aphasia scale during hospitalization. The classic language related brain area and potential language related brain area were selected as the regions of interest to extract the local mean cerebral blood flow. The differences of cerebral blood flow between the two groups were compared, and the correlation between the cerebral blood flow of each region of interest and the sub items of multiple language scales was analyzed.Results:Compared with the control group, the cerebral blood flow of the inferior parietal gyrus (AAL-11,(39.18±3.85) ml·100 g -1·min -1vs (50.41±1.93) ml·100 g -1·min -1, t=2.605), angular gyrus (AAL-13,(39.90±3.29) ml·100 g -1·min -1vs (47.86±1.93) ml·100 g -1·min -1, t=2.087) in the patients was obviously decreased; In the relevant brain areas of listening comprehension, the cerebral blood flow of the inferior parietal gyrus (AAL-61, (33.86±4.15) ml·100 g -1·min -1vs (44.31±2.39) ml·100 g -1·min -1, t=2.179), superior marginal gyrus (AAL-63, (36.49±4.40) ml·100 g -1·min -1vs(50.17±2.26) ml·100 g -1·min -1, t=2.765), and angular gyrus (AAL-65, (35.56±4.24) ml·100 g -1·min -1vs(48.98±2.32) ml·100 g -1·min -1, t=2.777), Heschl gyrus (AAL-79, (47.30±5.11) ml·100 g -1·min -1vs(62.54±2.45) ml·100 g -1·min -1, t=2.689) and superior temporal gyrus (AAL-81, (43.56±4.82) ml·100 g -1·min -1vs (56.29±2.06) ml·100 g -1·min -1, t=2.429) of the patients was also decreased to different degrees ( P<0.05). In addition, the cerebral blood flow of the left insula (AAL-29, (46.59±3.76) ml·100 g -1·min -1vs (55.74±2.12) ml·100 g -1·min -1, t=2.120) and the rolandic island (AAL-17, (39.71±3.81) ml·100 g -1·min -1vs (52.48±2.01) ml·100 g -1·min -1, t=2.968)cover in the patients was also lower than that in the control group significantly ( P<0.05). The results of correlation analysis showed that there was a significant positive correlation ( P<0.05) between the brain blood flow of the left inferior frontal gyrus, the triangle of inferior frontal gyrus, the insular lobe, the inferior parietal lobe, the bilateral superior marginal gyrus and the sub item scores of the language scale in the patients. Conclusions:The decrease of cerebral blood flow is the potential cause of the decrease of language function in aphasia patients after stroke. The decrease of cerebral blood flow in six brain regions, including the frontal inferior gyrus, the frontal inferior gyrus triangle, the insular lobe, the left and right superior marginal gyrus and the inferior parietal lobe, can be used as an objective quantitative index to reflect the level of naming function.
