中心视网膜小动脉和小静脉等效物与大脑老化和黄斑神经节细胞内丛状层厚度的关系。
Association of Central Retinal Arteriolar and Venular Equivalents with Brain-aging and Macular Ganglion Cell-inner Plexiform Layer Thickness.
机构信息
Department of Ophthalmology and Visual Sciences, School of Medicine and Public Health, University of Wisconsin - Madison, Madison, Wisconsin, USA.
Department of Geriatrics and Adult Development, School of Medicine and Public Health, University of Wisconsin - Madison, Madison, Wisconsin, USA.
出版信息
Ophthalmic Epidemiol. 2023 Feb;30(1):103-111. doi: 10.1080/09286586.2022.2057550. Epub 2022 Mar 28.
INTRODUCTION
Neurodegeneration and cognitive decline in aging are growing public health concerns. This study investigates associations between central retinal arteriolar and venular equivalents (CRAE, CRVE) and brain-aging, a sensory and cognitive test composite measure, and macular ganglion cell-inner plexiform layer (mGCIPL) thickness, a biomarker of neurodegeneration.
METHODS
Beaver Dam Offspring Study (BOSS) participants are adult children (baseline (2005-2008) age 21-84 years) of the population-based Epidemiology of Hearing Loss Study participants. Follow-up occurred every 5 years. In 2010-2013, fundus photographs were used to measure retinal vessels. A brain-aging score was constructed by principal component analysis using sensorineural and cognitive data. Associations between incident brain-aging and vessel measures were investigated using logistic regression. Associations between CRAE and CRVE and mGCIPL thickness, measured in 2015-2017, were also investigated.
RESULTS
Participants (N = 2381; mean age: 53.9 years (SD = 9.8); 54% women) had a mean CRAE and CRVE of 148.8 µm (SD = 14.5) and 221.7 µm (SD = 20.7), respectively. Among those without ocular conditions, wider CRAE was associated with decreased 5-year brain-aging risk (33% per SD CRAE increase). Both vessel measures were independently associated with mGCIPL thickness. The mGCIPL thickness increased by approximately 1.7 µm and 2.0 µm per SD increase in CRAE and CRVE, respectively.
DISCUSSION
The association of CRAE with incident brain-aging indicates its potential use as a screening tool among those without eye disease. The associations between CRAE and CRVE and mGCIPL thickness indicate narrower vasculature could affect neuronal health. These associations point to potential usefulness of retinal vessel measurements to identify people at higher risk of sensorineural declines and neurodegeneration.
简介
衰老过程中的神经退行性变和认知能力下降是日益严重的公共健康问题。本研究旨在探讨中心视网膜小动脉和小静脉等效物(CRAE、CRVE)与脑老化(一种感觉和认知测试综合指标)以及黄斑神经节细胞-内丛状层(mGCIPL)厚度(一种神经退行性变的生物标志物)之间的关联。
方法
Beaver Dam Offspring Study(BOSS)参与者是基于人群的听力损失研究参与者的成年子女(基线(2005-2008 年)年龄 21-84 岁)。每 5 年进行一次随访。在 2010-2013 年,使用眼底照片测量视网膜血管。通过主成分分析使用感觉神经和认知数据构建脑老化评分。使用逻辑回归研究脑老化和血管指标之间的关联。还研究了 CRAE 和 CRVE 与 2015-2017 年测量的 mGCIPL 厚度之间的关联。
结果
参与者(N=2381;平均年龄:53.9 岁(SD=9.8);54%为女性)的平均 CRAE 和 CRVE 分别为 148.8 µm(SD=14.5)和 221.7 µm(SD=20.7)。在没有眼部疾病的人群中,较宽的 CRAE 与降低 5 年脑老化风险相关(CRAE 每增加一个标准差,风险降低 33%)。两种血管指标均与 mGCIPL 厚度独立相关。CRAE 和 CRVE 每增加一个标准差,mGCIPL 厚度分别增加约 1.7 µm 和 2.0 µm。
讨论
CRAE 与新发脑老化的相关性表明,它可能在没有眼部疾病的人群中用作筛查工具。CRAE 和 CRVE 与 mGCIPL 厚度之间的相关性表明,更窄的血管可能会影响神经元健康。这些相关性表明,视网膜血管测量可能有助于识别感觉神经下降和神经退行性变风险较高的人群。
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