脑回形成：何时、何地、如何以及为何？

Cortical folding: when, where, how, and why?

机构信息

Department of Neurobiology and Behavior.

出版信息

Annu Rev Neurosci. 2015 Jul 8;38:291-307. doi: 10.1146/annurev-neuro-071714-034128. Epub 2015 Apr 16.

Abstract

Why the cerebral cortex folds in some mammals but not in others has long fascinated and mystified neurobiologists. Over the past century-especially the past decade-researchers have used theory and experiment to support different folding mechanisms such as tissue buckling from mechanical stress, axon tethering, localized proliferation, and external constraints. In this review, we synthesize these mechanisms into a unifying framework and introduce a hitherto unappreciated mechanism, the radial intercalation of new neurons at the top of the cortical plate, as a likely proximate force for tangential expansion that then leads to cortical folding. The interplay between radial intercalation and various biasing factors, such as local variations in proliferation rate and connectivity, can explain the formation of both random and stereotypically positioned folds.

摘要

为什么大脑皮层在一些哺乳动物中折叠，而在另一些哺乳动物中不折叠，长期以来一直令神经生物学家着迷和困惑。在过去的一个世纪里——特别是在过去的十年里——研究人员已经使用理论和实验来支持不同的折叠机制，例如机械应力引起的组织弯曲、轴突束缚、局部增殖和外部约束。在这篇综述中，我们将这些机制综合成一个统一的框架，并引入一个迄今为止尚未被认识的机制，即新神经元在皮质板顶部的放射状插入，作为可能的切向扩张的近因力，然后导致皮质折叠。放射状插入与各种偏向因素（如增殖率和连接性的局部变化）之间的相互作用可以解释随机和典型位置折叠的形成。

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脑回形成：何时、何地、如何以及为何？

Cortical folding: when, where, how, and why?

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