认知储备
认知
萎缩
认知功能衰退
心理学
大脑大小
睡眠剥夺对认知功能的影响
神经影像学
阿尔茨海默病
神经科学
疾病
听力学
医学
痴呆
内科学
认知障碍
磁共振成像
放射科
作者
Yue Cai,Lili Fang,Anqi Li,Jie Yang,Xin Zhou,Zhengbo He,Pan Sun,Qingyong Wang,Tengfei Guo
摘要
Abstract INTRODUCTION Alzheimer's disease (AD) patients with higher educational attainment (EA) often exhibit better cognitive function. However, the relationship among EA status, AD pathology, structural brain reserve, and cognitive decline requires further investigation. METHODS We compared cognitive performance across different amyloid beta (Aβ) positron emission tomography (A ±) statuses and EA levels (High EA/Low EA). We examined the effects of Aβ plaques, tau tangles, and gray matter volume (GMV) on the relationship between EA and domain‐specific cognitive decline. RESULTS A+/High‐EA individuals exhibited slower cognitive decline in global cognition and language domains than A+/Low‐EA individuals. This cognitive benefit was independently and synergistically explained by reduced AD pathology, including lower Aβ and tau burdens, as well as preserved GMV. Additionally, High‐EA individuals experienced a median delay of 1.9 years in the onset of significant brain atrophy among A+ individuals. DISCUSSION These findings highlight the independent and synergistic contributions of EA‐associated AD pathology and GMV alterations to longitudinal cognitive decline. Highlights Alzheimer's disease (AD) individuals with high educational attainment (EA) show slower declines in global cognition and language. EA‐related slower cognitive decline is linked to reduced tau and greater gray matter volume in AD. AD individuals with high EA show a median 1.9 year delayed onset of brain atrophy.
科研通智能强力驱动
Strongly Powered by AbleSci AI