与健康老年对照组后扣带回皮质灰质损失相关,这些对照组随后出现轻微认知衰退。
* Is Associated with Gray Matter Loss in the Posterior Cingulate Cortex in Healthy Elderly Controls Subsequently Developing Subtle Cognitive Decline.
作者信息
Haller S, Montandon M-L, Rodriguez C, Ackermann M, Herrmann F R, Giannakopoulos P
机构信息
From the Affidea Centre de Diagnostic Radiologique de Carouge (S.H.), Geneva, Switzerland
Faculty of Medicine (S.H., M.-L.M., F.R.H., P.G.), University of Geneva, Switzerland.
出版信息
AJNR Am J Neuroradiol. 2017 Jul;38(7):1335-1342. doi: 10.3174/ajnr.A5184. Epub 2017 May 11.
BACKGROUND AND PURPOSE
The presence of (*) is the strongest currently known genetic risk factor for Alzheimer disease and is associated with brain gray matter loss, notably in areas involved in Alzheimer disease pathology. Our objective was to assess the effect of * on brain structures in healthy elderly controls who subsequently developed subtle cognitive decline.
MATERIALS AND METHODS
This prospective study included 382 community-dwelling elderly controls. At baseline, participants underwent MR imaging at 3T, extensive neuropsychological testing, and genotyping. After neuropsychological follow-up at 18 months, participants were classified into cognitively stable controls and cognitively deteriorating controls. Data analysis included whole-brain voxel-based morphometry and ROI analysis of GM.
RESULTS
*-related GM loss at baseline was found only in the cognitively deteriorating controls in the posterior cingulate cortex. There was no *related effect in the hippocampus, mesial temporal lobe, or brain areas not involved in Alzheimer disease pathology. Controls in the cognitively deteriorating group had slightly lower GM concentration in the hippocampus at baseline. Higher GM densities in the hippocampus, middle temporal lobe, and amygdala were associated with a decreased risk for cognitively deteriorating group status at follow-up.
CONCLUSIONS
*-related GM loss in the posterior cingulate cortex (an area involved in Alzheimer disease pathology) was found only in those elderly controls who subsequently developed subtle cognitive decline but not in cognitively stable controls. This finding might explain the partially conflicting results of previous studies that typically did not include detailed neuropsychological assessment and follow-up. Most important, * status had no impact on GM density in areas affected early by neurofibrillary tangle formation such as the hippocampus and mesial temporal lobe.
背景与目的
()的存在是目前已知的阿尔茨海默病最强遗传风险因素,与脑灰质丢失有关,尤其是在涉及阿尔茨海默病病理的区域。我们的目的是评估()对随后出现轻微认知衰退的健康老年对照者脑结构的影响。
材料与方法
这项前瞻性研究纳入了382名社区居住的老年对照者。在基线时,参与者接受了3T磁共振成像、广泛的神经心理学测试和基因分型。在18个月的神经心理学随访后,参与者被分为认知稳定对照者和认知衰退对照者。数据分析包括全脑基于体素的形态学测量和灰质的感兴趣区分析。
结果
仅在认知衰退对照者的后扣带回皮质发现基线时与()相关的灰质丢失。在海马体、内侧颞叶或未涉及阿尔茨海默病病理的脑区未发现与()相关的效应。认知衰退组的对照者在基线时海马体中的灰质浓度略低。海马体、颞中回和杏仁核中较高的灰质密度与随访时认知衰退组状态风险降低相关。
结论
仅在那些随后出现轻微认知衰退的老年对照者中发现后扣带回皮质(一个涉及阿尔茨海默病病理的区域)存在与()相关的灰质丢失,而在认知稳定对照者中未发现。这一发现可能解释了以往研究中部分相互矛盾的结果,这些研究通常未包括详细的神经心理学评估和随访。最重要的是,()状态对早期受神经原纤维缠结形成影响的区域如海马体和内侧颞叶的灰质密度没有影响。
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