2 型糖尿病、脑萎缩和认知能力下降。
Type 2 diabetes mellitus, brain atrophy, and cognitive decline.
机构信息
From the Department of Medicine (C.M., R.B., W.W., M.C., V.S.), Peninsula Clinical School, Central Clinical School, Monash University; Departments of Medicine and Geriatric Medicine (C.M., V.S.), Peninsula Health; Department of Aged Care (C.M.), Caulfield Hospital, Alfred Health; Developmental Imaging (R.B.), Murdoch Children's Research Institute, Melbourne; and Menzies Institute for Medical Research (M.C., V.S.), University of Tasmania, Hobart, Australia.
出版信息
Neurology. 2019 Feb 19;92(8):e823-e830. doi: 10.1212/WNL.0000000000006955. Epub 2019 Jan 23.
OBJECTIVE
To study longitudinal relationships between type 2 diabetes mellitus (T2DM), cortical thickness, and cognitive function in older people with normal cognition, mild cognitive impairment, and Alzheimer disease (AD).
METHODS
The sample was derived from the Alzheimer's Disease Neuroimaging Initiative cohort who underwent brain MRI and cognitive tests annually for 5 years. Presence of T2DM was based on fasting blood glucose ≥7.0mml/L or the use of glucose-lowering agents. We used latent growth curve modeling to explore longitudinal relationships between T2DM, cortical thickness, and cognitive function, adjusting for relevant covariates and testing for interactions.
RESULTS
There were 124 people with T2DM (mean age 75.5 years, SD 6.2) and 693 without T2DM (mean age 75.1 years, SD 6.9) with at least 1 MRI available. AD and lower cortical thickness at study entry was associated with a lower chance of having a MRI available at each follow-up phase (all < 0.001). T2DM was associated with lower baseline cortical thickness ( = 0.01). We found no direct effect of T2DM on decline in cortical thickness or cognitive function, but there was an indirect pathway linking T2DM and cognitive decline via baseline cortical thickness (β = -0.17, = 0.022). There was an interaction between T2DM and education whereby the negative effect of T2DM on baseline cortical thickness was reduced in those with greater education (β = 0.34, = 0.037). These associations changed minimally when adjusted for baseline cognitive diagnosis.
CONCLUSIONS
In an older cohort with low cerebrovascular disease burden, T2DM contributes to cognitive decline via neurodegeneration. Prior brain and cognitive reserve may protect against this effect.
目的
研究 2 型糖尿病(T2DM)、皮质厚度与认知功能在认知正常、轻度认知障碍和阿尔茨海默病(AD)老年人中的纵向关系。
方法
该样本来自阿尔茨海默病神经影像学倡议队列,他们在 5 年内每年接受一次脑部 MRI 和认知测试。T2DM 的存在基于空腹血糖≥7.0mmol/L 或使用降血糖药物。我们使用潜在增长曲线模型来探索 T2DM、皮质厚度和认知功能之间的纵向关系,调整相关协变量并测试交互作用。
结果
共有 124 名 T2DM 患者(平均年龄 75.5 岁,标准差 6.2)和 693 名非 T2DM 患者(平均年龄 75.1 岁,标准差 6.9)至少有 1 次 MRI 可用。AD 和研究起点时皮质厚度较低与每次随访阶段 MRI 可用性降低的可能性较低有关(均<0.001)。T2DM 与基线皮质厚度较低相关(=0.01)。我们没有发现 T2DM 对皮质厚度或认知功能下降有直接影响,但存在一个间接途径,通过基线皮质厚度将 T2DM 与认知下降联系起来(β=-0.17,=0.022)。T2DM 与教育之间存在交互作用,即教育程度较高者 T2DM 对基线皮质厚度的负面影响降低(β=0.34,=0.037)。这些关联在调整基线认知诊断后变化不大。
结论
在脑血管疾病负担较低的老年队列中,T2DM 通过神经退行性变导致认知下降。先前的大脑和认知储备可能会对此产生保护作用。
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