Joint contributions from brain activity and activity-independent functional connectivity to working memory aging.

Psychophysiology Pub Date : 2024-02-01 Epub Date: 2023-10-09 DOI:10.1111/psyp.14449
Caishui Yang, Jialing Fan, Kewei Chen, Zhanjun Zhang
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Abstract

Working memory (WM) impairment has been well characterized in normal aging. Various studies have explored changes in either the regional activity or the interregional connectivity underlying the aging process of WM. We proposed that brain activity and connectivity would independently alter with aging and affect WM performance. WM was assessed with a classical N-back task during functional magnetic resonance imaging in a community-based sample comprising 168 elderly subjects (aged 55-86 years old). Following the rationale of background functional connectivity, we assessed age-related alterations in brain activity and seed-based interregional connectivity independently. Analyses revealed age-related decrease in positive activity of the inferior parietal lobule (IPL) and an increase in the negative activity of the ventral anterior cingulate cortex (ACC), and the local functional dysfunctions were accompanied by alterations in their connectivity to other cortical regions. Importantly, regional activity impairments in the IPL and ACC could mediate age-related effects on accuracy rate and reaction time, respectively, and those effects were further counterbalanced by enhancement of their background functional connectivity. We thus claimed that age-induced alterations in regional activity and interregional connectivity occurred independently and contributed to WM changes in aging. Our findings presented the way brain activity and functional connectivity interact in the late adulthood, thus providing a new perspective for understanding WM and cognitive aging.

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大脑活动和与活动无关的功能连接对工作记忆衰老的共同贡献。
工作记忆(WM)损伤在正常衰老中具有很好的特征。各种研究探讨了WM衰老过程中区域活动或区域间连通性的变化。我们提出大脑活动和连接会随着年龄的增长而独立改变,并影响WM的表现。在包括168名老年受试者(年龄55-86岁)的社区样本中,在功能性磁共振成像期间,用经典的N-背任务评估WM 岁)。根据背景功能连接的基本原理,我们独立评估了与年龄相关的大脑活动变化和基于种子的区域间连接。分析显示,与年龄相关的顶叶下小叶(IPL)正活动减少,腹侧前扣带皮层(ACC)负活动增加,局部功能性功能障碍伴有与其他皮层区域连接的改变。重要的是,IPL和ACC的区域活动损伤可以分别介导与年龄相关的对准确率和反应时间的影响,这些影响通过增强其背景功能连接而得到进一步平衡。因此,我们声称,年龄引起的区域活动和区域间连通性的变化是独立发生的,并导致了衰老中WM的变化。我们的发现揭示了成年后期大脑活动和功能连接的相互作用方式,从而为理解WM和认知衰老提供了一个新的视角。
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