Using structural and functional brain imaging to uncover how the brain adapts to blindness

Annals of neuroscience and psychology Pub Date : 2015-08-13 DOI:10.7243/2055-3447-2-7

Gabriella V. Hirsch, C. Bauer, L. Merabet

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引用次数: 23

Abstract

Advances in neuroimaging technology have been instrumental in uncovering the dramatic neurological changes that result from blindness, as well as revealing the inner workings of the human brain. Specifically, modern imaging techniques enable us to examine how the brain adapts and “re-wires” itself as a result of changes in behavior, the environment, injury, or disease; a process referred to as neuroplasticity. Following an overview of commonly employed neuroimaging techniques, we discuss structural and functional neuroplastic brain changes associated with profound visual deprivation. In particular, we highlight how associated structural changes often occur within areas that process intact senses (such as hearing, touch, and smell) while functional changes tend to implicate areas of the brain normally ascribed to the processing of visual information. Evidence will primarily focus on profound blindness due to ocular cause, but related work in cerebral/cortical visual impairment (CVI) will also be discussed. The potential importance of these findings within the context of education and rehabilitation is proposed.

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利用结构和功能脑成像来揭示大脑如何适应失明

神经成像技术的进步有助于揭示由失明引起的巨大神经变化，以及揭示人类大脑的内部运作。具体来说，现代成像技术使我们能够检查大脑如何适应和“重新连接”自己作为行为、环境、受伤或疾病变化的结果;这个过程被称为神经可塑性。在概述了常用的神经成像技术之后，我们讨论了与深度视觉剥夺相关的结构和功能神经可塑性大脑变化。特别是，我们强调了相关的结构变化通常发生在处理完整感官(如听觉、触觉和嗅觉)的区域内，而功能变化往往涉及通常归因于处理视觉信息的大脑区域。证据将主要集中在眼部原因引起的深度失明，但也将讨论脑/皮质视觉障碍(CVI)的相关工作。提出了这些发现在教育和康复背景下的潜在重要性。

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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Annals of neuroscience and psychology

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