What to expect from MRI in the investigation of the central nervous system?

D Le Bihan
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Abstract

Functional magnetic resonance imaging (fMRI) has appeared as a new tool that is very powerful for cognitive neuroscience, offering the potential to look at the dynamics of cerebral processes underlying cognition, non-invasively and on an individual basis. Work remains to be done to optimize the technique and to better understand its basic mechanisms, but one may expect to build in a foreseeable future a functional list of the main brain cortical networks implicated in sensory-motor or cognitive processes. Still, the real understanding of brain function requires direct access to the functional unit consisting of the neuron, so that one may look at the transient temporal relationships that exist between largely distributed groups of hundreds or thousands of neurons. Furthermore, communication pathways between networks, which are carried by brain white matter, must be identified to establish connectivity maps at the individual scale, taking into account individual variability resulting from genetic factors and cerebral plasticity. In this respect, MRI of molecular diffusion is very sensitive to water molecular motion and, thus, to tissue dynamic microstructure, such as cell size and geometry. Preliminary data suggest that diffusion MRI visualizes dynamic tissue changes associated with large neuronal activation and space orientation of large bundles of myelinated axons in the white matter.

MRI对中枢神经系统的研究有何期待?
功能性磁共振成像(fMRI)已经成为认知神经科学的一种强大的新工具,它提供了在非侵入性和个体基础上观察潜在认知的大脑过程动态的潜力。要优化这项技术并更好地了解其基本机制,还需要做更多的工作,但人们可以期望在可预见的未来建立一个涉及感觉-运动或认知过程的主要大脑皮层网络的功能列表。然而,真正理解大脑功能需要直接接触到由神经元组成的功能单元,这样人们就可以看到存在于由数百或数千个神经元组成的分布广泛的群体之间的短暂的时间关系。此外,考虑到遗传因素和大脑可塑性导致的个体差异,必须确定由脑白质携带的网络之间的通信途径,以建立个体尺度的连接图。在这方面,分子扩散的MRI对水分子运动非常敏感,因此对组织动态微观结构,如细胞大小和几何形状非常敏感。初步数据表明,弥散MRI可以显示与白质中大神经元激活和大束髓鞘轴突空间定向相关的动态组织变化。
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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