Sittichokkananon Arisa, Garfield Victoria, Chiesa Scott T
Princess Srisavangavadhana College of Medicine, Chulabhorn Royal Academy, Bangkok, Thailand (A.S.).
Department of Population Science and Experimental Medicine, Institute of Cardiovascular Science, UCL, London, UK (A.S., S.T.C.).
Circulation. 2025 Apr 29;151(17):1235-1247. doi: 10.1161/CIRCULATIONAHA.124.070632. Epub 2025 Apr 4.
Shared genetic and lifestyle risk factors may underlie the development of both coronary artery disease (CAD) and dementia. We examined whether an increased genetic risk for CAD is associated with long-term risk of developing all-cause, Alzheimer's, or vascular dementia, and investigated whether differences in potentially modifiable lifestyle factors in the mid- to late-life period may attenuate this risk.
A prospective cohort study of 365 782 participants free from dementia for at least 5 years after baseline assessment was conducted within the UK Biobank cohort. Genetic risk was assessed using a genomewide polygenic risk score (PRS) for CAD and lifestyle risk using a modified version of the American Heart Association's Life's Essential 8 Lifestyle Risk Score (LRS). Higher values for both scores were deemed to represent increased risk. Primary outcomes were incident all-cause, Alzheimer's, and vascular dementia diagnoses obtained from self-report and electronic health records. Secondary outcomes were neuroimaging phenotypes measured in 32 028 participants recalled for magnetic resonance imaging. Sensitivity analyses were conducted to test the extent by which biological and behavioral risk factors contributed to observed associations.
A total of 8870 cases of all-cause dementia were observed over a median 13.9-year follow-up. Both genetic (PRS) and lifestyle (LRS) risk scores for CAD were associated with a modestly elevated risk of all-cause dementia (subhazard ratio per SD increase, 1.10 [1.08, 1.12], <0.001, for PRS and 1.04 [1.02, 1.06], =0.006, for LRS). This risk appeared largely attributable to underlying vascular dementia diagnoses (subhazard ratio, 1.16 [1.11, 1.21], <0.001 for PRS and 1.15 [1.09, 1.22], <0.001, for LRS), because Alzheimer's disease was found to demonstrate moderate associations with PRS alone (subhazard ratio, 1.09 [1.06, 1.13]; <0.001). LRS was found to have an additive rather than interactive effect with PRS, with individuals in the highest tertiles for both genetic and lifestyle risk for CAD ≈70% more likely to develop vascular dementia during follow-up compared with those in the lowest tertiles for both (subhazard ratio, 1.71 [1.39, 2.11]; <0.001). This was substantially attenuated in those with a low LRS at baseline, however, regardless of underlying genetic risk (30% reduction for low versus high LRS tertile regardless of PRS tertile; <0.001 for all). In a subset of individuals recalled for neuroimaging assessments, those in the highest tertiles for genetic and lifestyle risk for CAD demonstrated a ≈25% greater volume of white matter hyperintensities than those in the lowest risk tertiles, but showed little difference in gray matter or hippocampal volumes. Sensitivity analyses identified associations between both biological and behavioral risk scores with white matter hyperintensity burden and vascular dementia, whereas some Alzheimer's dementia associations showed seemingly paradoxical relationships.
Individuals who are genetically predisposed to developing CAD also face an increased risk of developing dementia in old age. This risk is reduced in those demonstrating healthy lifestyle profiles earlier in the lifespan, particularly in those who may be at an increased risk of developing dementia caused by an underlying vascular pathology.
共同的遗传和生活方式风险因素可能是冠状动脉疾病(CAD)和痴呆症发病的基础。我们研究了CAD遗传风险增加是否与全因性、阿尔茨海默病或血管性痴呆的长期发病风险相关,并调查了中年至老年期潜在可改变的生活方式因素的差异是否可降低这种风险。
在英国生物银行队列中进行了一项前瞻性队列研究,对365782名在基线评估后至少5年无痴呆症的参与者进行了研究。使用CAD的全基因组多基因风险评分(PRS)评估遗传风险,使用美国心脏协会“生命八大基本生活方式风险评分”(LRS)的修改版评估生活方式风险。两个评分的较高值均被视为风险增加。主要结局是通过自我报告和电子健康记录获得的全因性、阿尔茨海默病和血管性痴呆的发病诊断。次要结局是对32028名被召回进行磁共振成像的参与者测量的神经影像学表型。进行敏感性分析以测试生物和行为风险因素对观察到的关联的影响程度。
在中位13.9年的随访期间,共观察到8870例全因性痴呆病例。CAD的遗传(PRS)和生活方式(LRS)风险评分均与全因性痴呆风险适度升高相关(每标准差增加的亚风险比,PRS为1.10[1.08,1.12],P<0.001;LRS为1.04[1.02,1.06],P=0.006)。这种风险似乎主要归因于潜在的血管性痴呆诊断(亚风险比,PRS为1.16[1.11,1.21],P<0.001;LRS为1.15[1.09,1.22],P<0.001),因为发现阿尔茨海默病仅与PRS有中度关联(亚风险比,1.09[1.06,1.13];P<0.001)。发现LRS与PRS有相加而非交互作用,与CAD遗传和生活方式风险均处于最低三分位数的个体相比,CAD遗传和生活方式风险均处于最高三分位数的个体在随访期间发生血管性痴呆的可能性高约70%(亚风险比,1.71[1.39,2.11];P<0.001)。然而,在基线LRS较低的个体中,这种情况显著减弱,无论其潜在的遗传风险如何(无论PRS三分位数如何,低LRS三分位数与高LRS三分位数相比降低30%;所有P<0.001)。在被召回进行神经影像学评估的个体子集中,CAD遗传和生活方式风险处于最高三分位数的个体的白质高信号体积比风险最低三分位数的个体大≈25%,但灰质或海马体积差异不大。敏感性分析确定了生物和行为风险评分与白质高信号负担和血管性痴呆之间的关联,而一些阿尔茨海默病痴呆关联显示出看似矛盾的关系。
遗传易患CAD的个体在老年时患痴呆症的风险也会增加。在寿命早期表现出健康生活方式的个体中,这种风险会降低,特别是在那些可能因潜在血管病变而患痴呆症风险增加的个体中。
