衰老大脑与运动任务复杂性在整个生命周期中的相互作用：平衡大脑活动的资源需求和供给。

Interactions between the aging brain and motor task complexity across the lifespan: balancing brain activity resource demand and supply.

机构信息

KU Leuven, Movement Control and Neuroplasticity Research Group, Biomedical Sciences, Tervuursevest 101, box 1501, 3001, Leuven, Belgium.

Department of Neuropsychology and Psychopharmacology, Faculty of Psychology and Neuroscience, Maastricht University, Universiteitssingel 40, 6229 ER, Maastricht, the Netherlands.

出版信息

Cereb Cortex. 2023 May 9;33(10):6420-6434. doi: 10.1093/cercor/bhac514.

DOI:10.1093/cercor/bhac514

PMID:36587289

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10183738/

Abstract

The Compensation Related Utilization of Neural Circuits Hypothesis (CRUNCH) proposes a framework for understanding task-related brain activity changes as a function of healthy aging and task complexity. Specifically, it affords the following predictions: (i) all adult age groups display more brain activation with increases in task complexity, (ii) older adults show more brain activation compared with younger adults at low task complexity levels, and (iii) disproportionately increase brain activation with increased task complexity, but (iv) show smaller (or no) increases in brain activation at the highest complexity levels. To test these hypotheses, performance on a bimanual tracking task at 4 complexity levels and associated brain activation were assessed in 3 age groups (20-40, 40-60, and 60-80 years, n = 99). All age groups showed decreased tracking accuracy and increased brain activation with increased task complexity, with larger performance decrements and activation increases in the older age groups. Older adults exhibited increased brain activation at a lower complexity level, but not the predicted failure to further increase brain activity at the highest complexity level. We conclude that older adults show more brain activation than younger adults and preserve the capacity to deploy increased neural resources as a function of task demand.

摘要

补偿相关利用神经回路假说（CRUNCH）提出了一个理解与任务相关的大脑活动变化的框架，作为健康老龄化和任务复杂性的函数。具体来说，它提供了以下预测：（i）所有成年年龄组在任务复杂性增加时显示出更多的大脑激活，（ii）与年轻成年人相比，老年人在低任务复杂性水平下显示出更多的大脑激活，以及（iii）不成比例地随着任务复杂性的增加而增加大脑激活，但（iv）在最高复杂性水平下显示出较小（或没有）的大脑激活增加。为了检验这些假设，在 3 个年龄组（20-40、40-60 和 60-80 岁，n=99）中评估了在 4 个复杂水平下进行双手跟踪任务的表现和相关的大脑激活。所有年龄组都表现出跟踪准确性降低和大脑激活增加随着任务复杂性的增加，而在年龄较大的年龄组中表现出更大的性能下降和激活增加。老年人在较低的复杂性水平上表现出增加的大脑激活，但没有出现预期的在最高复杂性水平上无法进一步增加大脑活动的情况。我们得出结论，老年人比年轻人表现出更多的大脑激活，并保持根据任务需求部署增加的神经资源的能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47d3/10183738/f2a26829ca89/bhac514f1.jpg

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衰老大脑与运动任务复杂性在整个生命周期中的相互作用：平衡大脑活动的资源需求和供给。

Interactions between the aging brain and motor task complexity across the lifespan: balancing brain activity resource demand and supply.

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