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穹窿白质胶质细胞损伤导致与年龄相关的边缘系统衰退过程中海马灰质损伤。

Fornix white matter glia damage causes hippocampal gray matter damage during age-dependent limbic decline.

机构信息

Cardiff University Brain Research Imaging Centre (CUBRIC), Maindy Road, Cathays, Cardiff, CF24 4HQ, UK.

Psychological Medicine and Clinical Neurosciences, School of Medicine, Cardiff University, Maindy Road, Cathays, Cardiff, CF24 4HQ, UK.

出版信息

Sci Rep. 2019 Jan 31;9(1):1060. doi: 10.1038/s41598-018-37658-5.

DOI:10.1038/s41598-018-37658-5
PMID:30705365
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6355929/
Abstract

Aging leads to gray and white matter decline but their causation remains unclear. We explored two classes of models of age and dementia risk related brain changes. The first class of models emphasises the importance of gray matter: age and risk-related processes cause neurodegeneration and this causes damage in associated white matter tracts. The second class of models reverses the direction of causation: aging and risk factors cause white matter damage and this leads to gray matter damage. We compared these models with linear mediation analysis and quantitative MRI indices (from diffusion, quantitative magnetization transfer and relaxometry imaging) of tissue properties in two limbic structures implicated in age-related memory decline: the hippocampus and the fornix in 166 asymptomatic individuals (aged 38-71 years). Aging was associated with apparent glia but not neurite density damage in the fornix and the hippocampus. Mediation analysis supported white matter damage causing gray matter decline; controlling for fornix glia damage, the correlations between age and hippocampal damage disappear, but not vice versa. Fornix and hippocampal differences were both associated with reductions in episodic memory performance. These results suggest that fornix white matter glia damage may cause hippocampal gray matter damage during age-dependent limbic decline.

摘要

衰老是导致灰质和白质减少的原因,但它们的因果关系尚不清楚。我们探讨了两类与年龄和痴呆风险相关的脑变化模型。第一类模型强调灰质的重要性:年龄和与风险相关的过程导致神经退行性变,从而导致相关白质束的损伤。第二类模型则反转了因果关系的方向:衰老和危险因素导致白质损伤,进而导致灰质损伤。我们使用线性中介分析和定量 MRI 指标(来自弥散、定量磁化转移和弛豫成像)比较了这两种模型,这些指标反映了两个与年龄相关的记忆衰退有关的边缘结构中的组织特性:海马体和穹窿。在 166 名无症状个体(年龄 38-71 岁)中,衰老与穹窿和海马体中的明显神经胶质而非神经突密度损伤有关。中介分析支持白质损伤导致灰质下降;控制穹窿神经胶质损伤后,年龄与海马体损伤之间的相关性消失,但反之则不然。穹窿和海马体的差异均与情景记忆表现的下降有关。这些结果表明,穹窿白质神经胶质损伤可能导致年龄相关的边缘下降过程中海马体灰质损伤。

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Overweight/Obesity-related microstructural alterations of the fimbria-fornix in the ABCD study: The role of aerobic physical activity.ABCD 研究中与超重/肥胖相关的穹窿伞纤维的微观结构改变:有氧体力活动的作用。
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