适应性髓鞘形成的细胞机制：弥合动物研究与人类认知之间的差距

Cellular mechanisms of adaptive myelination: bridging the gap between animal studies and human cognition.

作者信息

Bujalka Helena, Emery Ben

机构信息

a Department of Anatomy and Neuroscience , The University of Melbourne , Melbourne , Australia.

b Jungers Center for Neurosciences Research, Department of Neurology , Oregon Health & Science University , Portland , OR , USA.

出版信息

Cogn Neurosci. 2017 Apr;8(2):122-124. doi: 10.1080/17588928.2016.1206070. Epub 2016 Jul 22.

DOI:10.1080/17588928.2016.1206070

PMID:27447089

Abstract

Voelker and colleagues propose that we may illuminate learning-associated phenomena such as generalization by considering white matter plasticity. Consistent with this idea, human neuroimaging studies reveal learning-induced changes in adult white matter. Animal studies reveal that some forms of learning induce, and are dependent on, generation of new oligodendrocytes. Nevertheless, it remains unclear which alterations to myelin structure are most relevant to learning, and humans and rodents may profoundly differ in their capacity for oligodendrogenesis in adulthood. A full understanding of these issues will be critical to appreciating the role of adaptive myelination in human neuroplasticity.

摘要

沃尔克及其同事提出，通过考虑白质可塑性，我们或许能够阐明诸如泛化等与学习相关的现象。与此观点一致的是，人类神经影像学研究揭示了成人白质中学习诱导的变化。动物研究表明，某些形式的学习会诱导并依赖于新少突胶质细胞的生成。然而，尚不清楚髓鞘结构的哪些改变与学习最为相关，而且人类和啮齿动物在成年期的少突胶质细胞生成能力可能存在显著差异。全面理解这些问题对于认识适应性髓鞘形成在人类神经可塑性中的作用至关重要。

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适应性髓鞘形成的细胞机制：弥合动物研究与人类认知之间的差距

Cellular mechanisms of adaptive myelination: bridging the gap between animal studies and human cognition.

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适应性髓鞘形成的细胞机制：弥合动物研究与人类认知之间的差距

Cellular mechanisms of adaptive myelination: bridging the gap between animal studies and human cognition.

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机构信息

出版信息