From the Departments of Psychiatry (L.R., K.Y.), Neurology (K.Y.), and Epidemiology (K.Y.), University of California, San Francisco; Northern California Institute for Research and Education (T.H., F.X.), San Francisco; Kaiser Permanente Northern California (S.S.), Division of Research, Oakland; Johns Hopkins University School of Medicine (J.A.C.L.), Baltimore, MD; and San Francisco VA Medical Center (K.Y.), CA.
Neurology. 2022 Mar 8;98(10):e1040-e1049. doi: 10.1212/WNL.0000000000013249. Epub 2022 Jan 26.
The goal of this work was to determine whether midlife cardiac structure and function and their 25-year change from early to middle adulthood are associated with lower midlife cognition.
We studied 2,653 participants from the Coronary Artery Risk Development in Young Adults (CARDIA) study (57% women, 46% Black). Echocardiograms were obtained at year 5, 25, and 30 visits (participant mean age 30, 50, and 55 years) to assess left ventricular (LV) mass (LVM), LV systolic function with LV ejection fraction (LVEF), and LV diastolic function with left atrial volume (LAV) and early peak mitral velocity (E)/early peak mitral annular velocity (e') ratio. LVM and LAV were indexed to body surface area (LVMi and LAVi). At year 30, 5 cognitive domains were measured: global cognition, processing speed, executive function, delayed verbal memory, and verbal fluency. We investigated the association between midlife (year 30) and 25-year change in cardiac structure and function on midlife cognition using linear regressions.
Over 25 years, LVMi and LAVi increased with mean change (SD) per year of 0.27 (0.28) g/m and 0.42 (0.15) mL/m, while LVEF decreased by 0.11% (0.02%). After adjustment for demographics and education, 25-year increase (≥1 SD) in LVMi was associated with lower cognition on most tests ( ≤ 0.02); 25-year increase in LAVi was associated with lower global cognition ( = 0.04), but 25-year decrease in LVEF was not associated with cognition. Further adjustment for cardiovascular risk factors led to similar results. In addition, unlike year 30 E/e' ratio and LVEF, higher year 30 LVMi and LAVi were significantly associated with worse cognition on most cognitive tests.
Midlife cardiac structure and its change from early to middle adulthood are associated with lower midlife cognition even after accounting for confounders. Unlike systolic function, midlife LV diastolic function and its 25-year change were also linked to cognition. Our results provide information linking early to midlife cardiac structure and function to cognition.
本研究旨在探讨中年时期的心脏结构和功能,以及其从成年早期到中期的 25 年变化与中年认知能力的关系。
我们研究了来自冠状动脉风险发展在年轻人(CARDIA)研究的 2653 名参与者(57%为女性,46%为黑人)。在第 5、25 和 30 次就诊时(参与者平均年龄分别为 30、50 和 55 岁)进行超声心动图检查,以评估左心室(LV)质量(LVM)、LV 收缩功能(用 LV 射血分数[LVEF]表示)和 LV 舒张功能(用左心房容积[LAV]和早期峰值二尖瓣速度[E] /早期峰值二尖瓣环速度[e']比值表示)。LVM 和 LAV 按体表面积(LVMi 和 LAVi)进行索引。在第 30 年,测量了 5 个认知领域:整体认知、处理速度、执行功能、延迟言语记忆和言语流畅性。我们使用线性回归研究了中年(第 30 年)和 25 年心脏结构和功能变化与中年认知能力之间的关系。
在 25 年期间,LVMi 和 LAVi 的平均每年变化(标准差)分别为 0.27(0.28)g/m 和 0.42(0.15)mL/m,而 LVEF 降低了 0.11%(0.02%)。在校正人口统计学和教育因素后,LVMi 的 25 年增加(≥1 标准差)与大多数认知测试的认知能力下降相关(≤0.02);LAVi 的 25 年增加与整体认知能力下降相关(=0.04),但 LVEF 的 25 年下降与认知能力无关。进一步校正心血管危险因素后,得到了类似的结果。此外,与第 30 年 E/e'比值和 LVEF 不同,第 30 年较高的 LVMi 和 LAVi 与大多数认知测试中的认知能力下降显著相关。
即使在考虑混杂因素后,中年时期的心脏结构及其从中年早期到中期的变化也与中年认知能力下降有关。与收缩功能不同,中年 LV 舒张功能及其 25 年变化也与认知能力相关。我们的研究结果提供了将早期到中年的心脏结构和功能与认知能力联系起来的信息。