Enhanced generalization and specialization of brain representations of semantic knowledge in healthy aging

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Pedro Margolles , David Soto
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引用次数: 0

Abstract

Aging is often associated with a decrease in cognitive capacities. However, semantic memory appears relatively well preserved in healthy aging. Both behavioral and neuroimaging studies support the view that changes in brain networks contribute to this preservation of semantic cognition. However, little is known about the role of healthy aging in the brain representation of semantic categories. Here we used pattern classification analyses and computational models to examine the neural representations of living and non-living word concepts. The results demonstrate that brain representations of animacy in healthy aging exhibit increased similarity across categories, even across different task contexts. This pattern of results aligns with the neural dedifferentiation hypothesis that proposes that aging is associated with decreased specificity in brain activity patterns and less efficient neural resource allocation. However, the loss in neural specificity for different categories was accompanied by increased dissimilarity of item-based conceptual representations within each category. Taken together, the age-related patterns of increased generalization and specialization in the brain representations of semantic knowledge may reflect a compensatory mechanism that enables a more efficient coding scheme characterized by both compression and sparsity, thereby helping to optimize the limited neural resources and maintain semantic processing in the healthy aging brain.

健康老龄化过程中大脑对语义知识表征的泛化和特化能力增强
衰老通常与认知能力下降有关。然而,语义记忆在健康的衰老过程中似乎得到了相对较好的保存。行为学和神经影像学研究都支持这样一种观点,即大脑网络的变化有助于语义认知的保存。然而,人们对健康老龄化在大脑表征语义类别中的作用知之甚少。在这里,我们使用模式分类分析和计算模型来研究生物和非生物词概念的神经表征。结果表明,健康老龄人大脑中的动画表征在不同类别中表现出更高的相似性,即使在不同的任务情境中也是如此。这种结果模式与神经去分化假说一致,即衰老与大脑活动模式的特异性降低和神经资源分配效率降低有关。然而,在不同类别的神经特异性丧失的同时,每个类别中基于项目的概念表征的相似性也在增加。综合来看,大脑语义知识表征中与年龄相关的泛化和特异性增加的模式可能反映了一种补偿机制,这种机制能够实现以压缩和稀疏为特征的更有效的编码方案,从而有助于优化有限的神经资源,维持健康老龄化大脑的语义处理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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