AD连续体早期阶段浅表白质微结构与皮质病理沉积的关联

Association of Superficial White Matter Microstructure With Cortical Pathology Deposition Across Early Stages of the AD Continuum.

作者信息

Wang Shuyue, Zhang Fan, Zeng Qingze, Hong Hui, Zhang Yao, Xie Linyun, Lin Miao, Jiaerken Yeerfan, Yu Xinfeng, Zhang Ruiting, Luo Xiao, Li Kaicheng, Xu Xiaopei, Hassanzadeh-Behbahani Shiva, Lin Bin, Rushmore Jarrett, Wang Chao, Rathi Yogesh, Makris Nikos, Huang Peiyu, Zhang Minming, Sun Jianzhong, O'Donnell Lauren

机构信息

Department of Radiology, The Second Affiliated Hospital of Zhejiang University School of Medicine, Hangzhou, China.

School of Information and Communication Engineering, University of Electronic Science and Technology of China, Chengdu, China.

出版信息

Neurology. 2025 Jul 22;105(2):e213666. doi: 10.1212/WNL.0000000000213666. Epub 2025 Jun 19.

DOI:10.1212/WNL.0000000000213666

PMID:40537069

Abstract

BACKGROUND AND OBJECTIVES

β-amyloid (Aβ) and tau, 2 prominent pathologies of Alzheimer disease (AD), originate in cortical regions and primarily affect, and even spread along, the white matter tracts directly connected to these cortical regions. Superficial white matter (SWM), containing short-range association connections beneath the cortex, has been affected in mild cognitive impairment and AD, with gaps in understanding the disease's early stages. We perform a detailed investigation of individual SWM connections with cortical pathology deposition and cognition in the early stages of the AD continuum.

METHODS

We enroll participants with Aβ PET, tau PET, diffusion MRI, and cognitive status from the Alzheimer's Disease Neuroimaging Initiative (ADNI) and Harvard Aging Brain Study (HABS). We stratify participants into disease stages following the Aβ/tau (AT) framework. We use diffusion MRI tractography to analyze SWM fiber clusters and assess their microstructure through free-water modeling, identifying significant differences between pathologically staged groups. We investigate associations of diffusion measures in SWM fiber clusters with regional pathology deposition (Aβ- and tau- PET uptake) and cognition.

RESULTS

The study includes 150 ADNI participants (mean age 73.6 years, 61.3% female) and 175 HABS participants (mean age 75.6 years, 61.1% female). We find the following: (1) SWM microstructure differs along the early-stage Alzheimer disease continuum, with primary abnormalities in posterior brain regions; (2) there are significant free-water alterations in cognitively intact but pathology-positive individuals ( < 0.05, false discovery rate [FDR] corrected); (3) associations are identified between free water in SWM connections and proximal pathologic deposition, as well as between free water in several connections and memory function (standardized β coefficient = [-0.297 to -0.352], all < 0.05, FDR corrected); and (iv) free water of a temporal SWM connection mediates the impact of temporal tau on memory (95% CI = [-0.146 to -0.002], accounts for 15.0% of the total effect).

DISCUSSION

The findings of this study suggest that the propagation of AD pathology and cognitive changes may involve SWM pathways even in the early stages, emphasizing the importance of SWM in developing AD therapies and early interventions.

摘要

背景与目的

β-淀粉样蛋白（Aβ）和tau蛋白是阿尔茨海默病（AD）的两种主要病理特征，起源于皮质区域，主要影响并甚至沿着直接连接到这些皮质区域的白质纤维束扩散。浅表白质（SWM）包含皮质下的短程联合连接，在轻度认知障碍和AD中已受到影响，但对疾病早期阶段的了解仍存在空白。我们对AD连续体早期阶段个体的SWM连接与皮质病理沉积及认知进行了详细研究。

方法

我们纳入了来自阿尔茨海默病神经影像学倡议（ADNI）和哈佛衰老大脑研究（HABS）的具有Aβ PET、tau PET、扩散MRI及认知状态的参与者。我们按照Aβ/tau（AT）框架将参与者分层为疾病阶段。我们使用扩散MRI纤维束成像来分析SWM纤维束并通过自由水建模评估其微观结构，确定病理分期组之间的显著差异。我们研究SWM纤维束中扩散测量值与区域病理沉积（Aβ和tau PET摄取）及认知之间的关联。

结果

该研究包括150名ADNI参与者（平均年龄73.6岁，61.3%为女性）和175名HABS参与者（平均年龄75.6岁，61.1%为女性）。我们发现：（1）SWM微观结构在AD早期连续体中存在差异，后脑区域存在主要异常；（2）认知正常但病理阳性的个体存在显著的自由水改变（<0.05，错误发现率[FDR]校正）；（3）确定了SWM连接中的自由水与近端病理沉积之间的关联，以及几个连接中的自由水与记忆功能之间的关联（标准化β系数=[-0.297至-0.352]，均<0.05，FDR校正）；以及（4）颞叶SWM连接的自由水介导了颞叶tau对记忆的影响（95%CI=[-0.146至-0.002]，占总效应的15.0%）。