Centre for Neuroscience Studies, Queen's University, Kingston, Ontario, Canada.
School of Medicine, Queen's University, Kingston, Ontario, Canada.
Am J Physiol Regul Integr Comp Physiol. 2024 May 1;326(5):R346-R356. doi: 10.1152/ajpregu.00270.2023. Epub 2024 Feb 26.
The aim of this study was to investigate how aging affects blood flow and structure of the brain. It was hypothesized older individuals would have lower gray matter volume (GMV), resting cerebral blood flow (CBF), and depressed responses to isometabolic and neurometabolic stimuli. In addition, increased carotid-femoral pulse-wave velocity (PWV), carotid intima-media thickness (IMT), and decreased brachial flow-mediated dilation (FMD) would be associated with lower CBF, cerebrovascular reactivity (CVR), and GMV. Brain scans (magnetic resonance imaging) and cardiovascular examinations were conducted in young (age = 24 ± 3 yr, range = 22-28 yr; = 13) and old (age = 71 ± 4 yr; range = 67-82 yr, = 14) participants, and CBF, CVR [isometabolic % blood oxygen level-dependent (BOLD) in response to a breath hold (BH)], brain activation patterns during a working memory task (neurometabolic %BOLD response to N-back trial), GMV, PWV, IMT, and FMD were measured. CBF and to a lesser extent CVR were lower in the old group ( ≤ 0.050); however, the increase in the %BOLD response to the memory task was not blunted ( ≥ 0.2867). Age-related differential activation patterns during the working memory task were characterized by disinhibition of the default mode network in the old group ( < 0.0001). Linear regression analyses revealed PWV, and IMT were negatively correlated with CBF, CVR, and GMV across age groups, but within the old group alone only the relationships between PWV-CVR and IMT-GMV remained significant ( ≤ 0.0183). These findings suggest the impacts of age on cerebral %BOLD responses are stimulus specific, brain aging involves alterations in cerebrovascular and possibly neurocognitive control, and arterial stiffening and wall thickening may serve a role in cerebrovascular aging. Cerebral perfusion was lower in old versus young adults. %Blood oxygen level-dependent (BOLD) responses to an isometabolic stimulus and gray matter volume were decreased in old versus young adults and associated with arterial stiffening and wall thickening. The increased %BOLD response to a neurometabolic stimulus appeared unaffected by age; however, the old group displayed disinhibition of the default mode network during the stimulus. Thus, age-related alterations in cerebral %BOLD responses were stimulus specific and related to arterial remodeling.
本研究旨在探讨衰老如何影响大脑的血流和结构。研究假设老年人的灰质体积(GMV)、静息脑血流(CBF)更低,对代谢和神经代谢刺激的反应也会受到抑制。此外,颈动脉-股动脉脉搏波速度(PWV)增加、颈动脉内中膜厚度(IMT)增加和肱动脉血流介导的扩张(FMD)降低与 CBF、脑血管反应性(CVR)和 GMV 降低相关。对年轻(年龄=24±3 岁,范围=22-28 岁;n=13)和老年(年龄=71±4 岁,范围=67-82 岁,n=14)参与者进行脑扫描(磁共振成像)和心血管检查,测量 CBF、CVR[代谢性血含氧依赖水平(BOLD)反应呼吸暂停的百分比(BH)]、工作记忆任务期间的脑激活模式(神经代谢性 BOLD 对 N-back 试验的反应百分比)、GMV、PWV、IMT 和 FMD。与年轻组相比,老年组的 CBF 和 CVR 降低(≤0.050);然而,记忆任务的 BOLD 反应增加并没有减弱(≥0.2867)。工作记忆任务中与年龄相关的差异激活模式表现为老年组默认模式网络的去抑制(<0.0001)。线性回归分析表明,PWV 和 IMT 与 CBF、CVR 和 GMV 在各年龄组之间呈负相关,但仅在老年组中,PWV-CVR 和 IMT-GMV 之间的关系仍然显著(≤0.0183)。这些发现表明,大脑对 BOLD 反应的年龄影响具有刺激特异性,大脑衰老涉及脑血管和可能的神经认知控制的改变,动脉僵硬和壁增厚可能在脑血管衰老中起作用。与年轻成年人相比,老年人的脑灌注较低。与年轻成年人相比,老年人对代谢性刺激和 GMV 的 BOLD 反应降低,与动脉僵硬和壁增厚相关。对神经代谢刺激的 BOLD 反应增加似乎不受年龄影响;然而,老年组在刺激期间显示默认模式网络的去抑制。因此,与年龄相关的大脑 BOLD 反应改变具有刺激特异性,并与动脉重塑有关。
