工作记忆、年龄与教育：一项全生命周期 fMRI 研究。

Working memory, age and education: A lifespan fMRI study.

机构信息

Psychology, Nanyang Technological University, Singapore, Singapore.

Department of Biomedical Engineering, National University of Singapore, Singapore, Singapore.

出版信息

PLoS One. 2018 Mar 27;13(3):e0194878. doi: 10.1371/journal.pone.0194878. eCollection 2018.

DOI:10.1371/journal.pone.0194878

PMID:29584781

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5870997/

Abstract

Ageing is associated with grey matter atrophy and changes in task-related neural activations. This study investigated the effects of age and education on neural activation during a spatial working memory task in 189 participants aged between 20-80 years old, whilst controlling for grey matter density. Age was related to linear decreases in neural activation in task activated areas, and this effect was no longer significant when adjusting for education or accuracy. Age was also related to cubic increases in neural activation in non-task related areas, such as the temporal gyrus, cuneus and cerebellum when adjusting for accuracy and education. These findings support previous lifespan datasets indicating linear age-related decreases in task activation, but non-linear increases in non-task related areas during episodic memory tasks. The findings also support past studies indicating education offers a form of cognitive reserve through providing a form of neural compensation and highlights the need to consider education in ageing studies.

摘要

衰老与灰质萎缩和与任务相关的神经激活变化有关。本研究调查了年龄和教育对 189 名 20-80 岁参与者在进行空间工作记忆任务时神经激活的影响，同时控制了灰质密度。年龄与任务激活区域的神经激活线性下降有关，当调整教育或准确性时，这种影响不再显著。当调整准确性和教育时，年龄还与非任务相关区域（如颞叶、楔叶和小脑）的神经激活的立方增加有关。这些发现支持了之前的生命周期数据集，表明任务激活与线性年龄相关的下降，但在情景记忆任务中，非任务相关区域呈非线性增加。这些发现还支持了过去的研究，表明教育通过提供一种神经补偿形式提供了一种认知储备形式，并强调了在衰老研究中考虑教育的必要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42b5/5870997/52f5014141c1/pone.0194878.g001.jpg

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工作记忆、年龄与教育：一项全生命周期 fMRI 研究。

Working memory, age and education: A lifespan fMRI study.

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