Claremont McKenna College, USA.
Claremont McKenna College, USA.
Neurobiol Aging. 2024 Apr;136:9-22. doi: 10.1016/j.neurobiolaging.2024.01.007. Epub 2024 Jan 20.
We explored neural processing differences associated with aging across four cognitive functions. In addition to ERP analysis, we included task-related microstate analyses, which identified stable states of neural activity across the scalp over time, to explore whole-head neural activation differences. Younger and older adults (YA, OA) completed face perception (N170), word-pair judgment (N400), visual oddball (P3), and flanker (ERN) tasks. Age-related effects differed across tasks. Despite age-related delayed latencies, N170 ERP and microstate analyses indicated no age-related differences in amplitudes or microstates. However, age-related condition differences were found for P3 and N00 amplitudes and scalp topographies: smaller condition differences were found for in OAs as well as broader centroparietal scalp distributions. Age group comparisons for the ERN revealed similar focal frontocentral activation loci, but differential activation patterns. Our findings of differential age effects across tasks are most consistent with the STAC-r framework which proposes that age-related effects differ depending on the resources available and the kinds of processing and cognitive load required of various tasks.
我们探讨了与衰老相关的四个认知功能的神经处理差异。除了 ERP 分析外,我们还包括任务相关的微状态分析,该分析可以确定随着时间的推移在整个头皮上的稳定的神经活动状态,以探索整个头部的神经激活差异。年轻组和老年组(YA,OA)完成了面孔感知(N170)、词对判断(N400)、视觉异常(P3)和侧抑制(ERN)任务。年龄相关的影响因任务而异。尽管与年龄相关的潜伏期延迟,但 N170 ERP 和微状态分析表明,在幅度或微状态上没有年龄相关的差异。然而,P3 和 N00 幅度和头皮地形图的条件差异与年龄有关:OA 中条件差异较小,并且中央顶叶头皮分布较宽。ERN 的年龄组比较揭示了相似的额中央激活部位,但激活模式不同。我们在不同任务中发现的与年龄相关的影响差异最符合 STAC-r 框架,该框架提出,与年龄相关的影响因各种任务所需的可用资源、处理和认知负荷的类型而异。
