神经影像学生物标志物可预测血管性认知障碍小鼠模型中的脑结构连接变化。

Neuroimaging Biomarkers Predict Brain Structural Connectivity Change in a Mouse Model of Vascular Cognitive Impairment.

作者信息

Boehm-Sturm Philipp, Füchtemeier Martina, Foddis Marco, Mueller Susanne, Trueman Rebecca C, Zille Marietta, Rinnenthal Jan Leo, Kypraios Theodore, Shaw Laurence, Dirnagl Ulrich, Farr Tracy D

机构信息

From the Department of Experimental Neurology, Center for Stroke Research Berlin (CSB) (P.B.-S., M.F., M.F., S.M., M.Z., U.D., T.D.F.), Charité Core Facility 7T Experimental MRIs (P.B.-S., S.M.), Department of Neuropathology (J.L.R.), and German Centre for Neurodegenerative Diseases (DZNE), Berlin site (M.F., U.D.), Charité University Medicine Berlin, Germany; and School of Life Sciences (R.C.T., T.D.F.) and School of Mathematics (T.K., L.S.), University of Nottingham, United Kingdom.

出版信息

Stroke. 2017 Feb;48(2):468-475. doi: 10.1161/STROKEAHA.116.014394. Epub 2017 Jan 9.

DOI:10.1161/STROKEAHA.116.014394

PMID:28070001

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5266417/

Abstract

BACKGROUND AND PURPOSE

Chronic hypoperfusion in the mouse brain has been suggested to mimic aspects of vascular cognitive impairment, such as white matter damage. Although this model has attracted attention, our group has struggled to generate a reliable cognitive and pathological phenotype. This study aimed to identify neuroimaging biomarkers of brain pathology in aged, more severely hypoperfused mice.

METHODS

We used magnetic resonance imaging to characterize brain degeneration in mice hypoperfused by refining the surgical procedure to use the smallest reported diameter microcoils (160 μm).

RESULTS

Acute cerebral blood flow decreases were observed in the hypoperfused group that recovered over 1 month and coincided with arterial remodeling. Increasing hypoperfusion resulted in a reduction in spatial learning abilities in the water maze that has not been previously reported. We were unable to observe severe white matter damage with histology, but a novel approach to analyze diffusion tensor imaging data, graph theory, revealed substantial reorganization of the hypoperfused brain network. A logistic regression model from the data revealed that 3 network parameters were particularly efficient at predicting group membership (global and local efficiency and degrees), and clustering coefficient was correlated with performance in the water maze.

CONCLUSIONS

Overall, these findings suggest that, despite the autoregulatory abilities of the mouse brain to compensate for a sudden decrease in blood flow, there is evidence of change in the brain networks that can be used as neuroimaging biomarkers to predict outcome.

摘要

背景与目的

有研究表明，小鼠脑内慢性灌注不足可模拟血管性认知障碍的某些方面，如白质损伤。尽管该模型已引起关注，但我们团队一直难以产生可靠的认知和病理表型。本研究旨在识别老年、灌注不足更严重的小鼠脑病理的神经影像学生物标志物。

方法

我们使用磁共振成像来表征通过改进手术程序以使用已报道的最小直径微线圈（160μm）进行灌注不足的小鼠的脑退化情况。

结果

在灌注不足组中观察到急性脑血流量减少，这种减少在1个月内恢复，且与动脉重塑同时发生。灌注不足加剧导致水迷宫中空间学习能力下降，这是此前未报道过的。我们通过组织学未能观察到严重的白质损伤，但一种分析扩散张量成像数据的新方法——图论，揭示了灌注不足脑网络的实质性重组。根据数据建立的逻辑回归模型显示，3个网络参数在预测组归属方面特别有效（全局和局部效率以及度），并且聚类系数与水迷宫中的表现相关。

结论

总体而言，这些发现表明，尽管小鼠脑具有自动调节能力以补偿血流量的突然减少，但有证据表明脑网络发生了变化，这些变化可用作预测结果的神经影像学生物标志物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ecfa/5266417/9430dfc04700/str-48-468-g001.jpg

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神经影像学生物标志物可预测血管性认知障碍小鼠模型中的脑结构连接变化。

Neuroimaging Biomarkers Predict Brain Structural Connectivity Change in a Mouse Model of Vascular Cognitive Impairment.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

METHODS

RESULTS

CONCLUSIONS

背景与目的

方法

结果

结论

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