快速通道中的学习：神经可塑性的新见解。

Learning in the fast lane: new insights into neuroplasticity.

机构信息

Department of Neurobiology, George S. Wise Faculty of Life Sciences, Tel Aviv University, Tel Aviv 69978, Israel.

出版信息

Neuron. 2012 Mar 22;73(6):1195-203. doi: 10.1016/j.neuron.2012.01.025. Epub 2012 Mar 21.

DOI:10.1016/j.neuron.2012.01.025

Abstract

The timescale of structural remodeling that accompanies functional neuroplasticity is largely unknown. Although structural remodeling of human brain tissue is known to occur following long-term (weeks) acquisition of a new skill, little is known as to what happens structurally when the brain needs to adopt new sequences of procedural rules or memorize a cascade of events within minutes or hours. Using diffusion tensor imaging (DTI), an MRI-based framework, we examined subjects before and after a spatial learning and memory task. Microstructural changes (as reflected by DTI measures) of limbic system structures (hippocampus and parahippocampus) were significant after only 2 hr of training. This observation was also found in a supporting rat study. We conclude that cellular rearrangement of neural tissue can be detected by DTI, and that this modality may allow neuroplasticity to be localized over short timescales.

摘要

伴随功能神经可塑性的结构重塑的时间尺度在很大程度上是未知的。虽然已知人类脑组织的结构重塑会在长期（数周）获得新技能后发生，但当大脑需要在数分钟或数小时内采用新的程序规则序列或记住一连串事件时，结构上会发生什么变化则知之甚少。我们使用扩散张量成像（DTI）——一种基于 MRI 的框架，在空间学习和记忆任务之前和之后检查了受试者。仅在 2 小时的训练后，边缘系统结构（海马体和海马旁回）的微观结构变化（如 DTI 测量所反映的）就很明显。在一项支持性的大鼠研究中也发现了这一观察结果。我们的结论是，通过 DTI 可以检测到神经组织的细胞重排，并且这种方式可能允许在短时间尺度上定位神经可塑性。

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快速通道中的学习：神经可塑性的新见解。

Learning in the fast lane: new insights into neuroplasticity.

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