From the Department of Psychiatry and Behavioral Sciences (L.M.J., L.W.), Northwestern University, Chicago, IL.
Department of Neurology (C.R.G., S.K., S.S., A.J.N., F.A.S.), Northwestern University, Chicago, IL.
Hypertension. 2020 May;75(5):1289-1295. doi: 10.1161/HYPERTENSIONAHA.120.14678. Epub 2020 Mar 30.
High blood pressure (BP) negatively affects brain structure and function. Hypertension is associated with white matter hyperintensities, cognitive and mobility impairment in late-life. However, the impact of BP exposure from young adulthood on brain structure and function in mid-life is unclear. Identifying early brain structural changes associated with BP exposure, before clinical onset of cognitive dysfunction and mobility impairment, is essential for understanding mechanisms and developing interventions. We examined the effect of cumulative BP exposure from young adulthood on brain structure in a substudy of 144 (61 female) individuals from the CARDIA (Coronary Artery Risk Development in Young Adults) study. At year 30 (Y, ninth visit), participants (56±4 years old) completed brain magnetic resonance imaging and gait measures (pace, rhythm, and postural control). Cumulative systolic and diastolic BP (cumulative systolic blood pressure, cDBP) over 9 visits were calculated, multiplying mean values between 2 consecutive visits by years between visits. Surface-based analysis of basal ganglia and thalamus was achieved using FreeSurfer-initiated Large Deformation Diffeomorphic Metric Mapping. Morphometric changes were regressed onto cumulative BP to localize regions of shape variation. Y white matter hyperintensity volumes were small and positively correlated with cumulative BP but not gait. Negative morphometric associations with cumulative systolic blood pressure were seen in the caudate, putamen, nucleus accumbens, pallidum, and thalamus. A concave right medial putamen shape mediated the relationship between cumulative systolic blood pressure and stride width. Basal ganglia and thalamic morphometric changes, rather than volumes, may be earlier manifestation of gray matter structural signatures of BP exposure that impact midlife gait.
高血压(BP)会对大脑结构和功能产生负面影响。高血压与脑白质高信号、认知和晚年行动能力受损有关。然而,从青年期开始的 BP 暴露对中年大脑结构和功能的影响尚不清楚。在认知功能障碍和行动能力受损的临床症状出现之前,确定与 BP 暴露相关的早期大脑结构变化对于理解发病机制和开发干预措施至关重要。我们在 CARDIA(年轻人冠状动脉风险发展)研究的一项亚研究中,检查了从青年期开始的累积 BP 暴露对大脑结构的影响。在第 30 年(Y 年,第 9 次就诊),参与者(56±4 岁)完成了大脑磁共振成像和步态测量(步速、节奏和姿势控制)。通过将两次连续就诊之间的平均值乘以就诊之间的年数,计算了 9 次就诊期间的累积收缩压和舒张压(累积收缩压,cDBP)。使用 FreeSurfer 启动的大变形 diffeomorphic 度量映射进行基底节和丘脑的基于表面的分析。形态变化与累积 BP 进行回归,以定位形状变化的区域。Y 年脑白质高信号体积较小,与累积 BP 呈正相关,但与步态无关。与累积收缩压呈负形态关联的区域包括尾状核、壳核、伏隔核、苍白球和丘脑。右侧内侧壳核形状的凹度介导了累积收缩压与步幅宽度之间的关系。基底节和丘脑的形态变化,而不是体积,可能是 BP 暴露对灰质结构特征的更早表现,从而影响中年步态。
