血管成像异常与认知:非痴呆个体中皮质体积的介导作用:社区动脉粥样硬化风险-神经认知研究
Vascular imaging abnormalities and cognition: mediation by cortical volume in nondemented individuals: atherosclerosis risk in communities-neurocognitive study.
作者信息
Knopman David S, Griswold Michael E, Lirette Seth T, Gottesman Rebecca F, Kantarci Kejal, Sharrett A Richey, Jack Clifford R, Graff-Radford Jonathan, Schneider Andrea L C, Windham B Gwen, Coker Laura H, Albert Marilyn S, Mosley Thomas H
机构信息
From the Departments of Neurology (D.S.K., J.G.-R.) and Radiology (K.K., C.R.J.), Mayo Clinic, Rochester, MN; Departments of Biostatistics (M.E.G., S.T.L.) and Medicine (B.G.W., T.H.M.), University of Mississippi Medical Center, Jackson, MS; Departments of Neurology (R.F.G., M.S.A.) and Epidemiology (A.R.S., A.L.C.S.), Johns Hopkins University, Baltimore, MD; and Division of Public Health Sciences, Department of Social Sciences and Health Policy, Wake Forest School of Medicine, Winston-Salem, NC (L.H.C.).
出版信息
Stroke. 2015 Feb;46(2):433-40. doi: 10.1161/STROKEAHA.114.007847. Epub 2015 Jan 6.
BACKGROUND AND PURPOSE
The relationships between cerebrovascular lesions visible on imaging and cognition are complex. We explored the possibility that the cerebral cortical volume mediated these relationships.
METHODS
Total of 1906 nondemented participants (59% women; 25% African-American; mean age, 76.6 years) in the Atherosclerosis Risk in Communities (ARIC) study underwent cognitive assessments, risk factor assessments, and quantitative MRI for white matter hyperintensities (WMH) and infarcts. The Freesurfer imaging analysis pipeline was used to determine regional cerebral volumes. We examined the associations of cognitive domain outcomes with cerebral volumes (hippocampus and separate groups of posterior and frontal cortical regions of interest) and cerebrovascular imaging features (presence of large or small cortical/subcortical infarcts and WMH volume). We performed mediation pathway analyses to assess the hypothesis that hippocampal and cortical volumes mediated the associations between cerebrovascular imaging features and cognition.
RESULTS
In unmediated analyses, WMH and infarcts were both associated with worse psychomotor speed/executive function. In mediation analyses, WMH and infarct associations on psychomotor speed/executive function were significantly attenuated, but not abolished, by the inclusion of the posterior cortical regions of interest volume in the models, and the infarcts on psychomotor speed/executive function association were attenuated, but not abolished, by inclusion of the frontal cortical regions of interest volume.
CONCLUSIONS
Both WMH and infarcts were associated with cortical volume, and both lesions were also associated with cognitive performance, implying shared pathophysiological mechanisms. Although cross-sectional, our findings suggest that WMH and infarcts could be proxies for clinically covert processes that directly damage cortical regions. Microinfarcts are 1 candidate for such a clinically covert process.
背景与目的
影像学上可见的脑血管病变与认知之间的关系复杂。我们探讨了大脑皮质体积介导这些关系的可能性。
方法
社区动脉粥样硬化风险(ARIC)研究中的1906名非痴呆参与者(59%为女性;25%为非裔美国人;平均年龄76.6岁)接受了认知评估、危险因素评估以及针对白质高信号(WMH)和梗死灶的定量MRI检查。使用FreeSurfer成像分析流程来确定局部脑容量。我们研究了认知领域结果与脑容量(海马体以及感兴趣的后皮质和额叶皮质区域的不同组)和脑血管成像特征(大或小的皮质/皮质下梗死灶的存在以及WMH体积)之间的关联。我们进行了中介途径分析,以评估海马体和皮质体积介导脑血管成像特征与认知之间关联的假设。
结果
在非中介分析中,WMH和梗死灶均与较差的精神运动速度/执行功能相关。在中介分析中,通过在模型中纳入感兴趣的后皮质区域体积,WMH和梗死灶对精神运动速度/执行功能的关联显著减弱,但未消除;通过纳入感兴趣的额叶皮质区域体积,梗死灶对精神运动速度/执行功能的关联减弱,但未消除。
结论
WMH和梗死灶均与皮质体积相关,且两种病变也均与认知表现相关,这意味着存在共同的病理生理机制。尽管是横断面研究,但我们的发现表明,WMH和梗死灶可能是直接损害皮质区域的临床隐匿过程的替代指标。微梗死是这种临床隐匿过程的一个候选因素。
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