Neuroinformatics Department, Cuban Neuroscience Center, Cuba.
Neuroimage. 2013 Jan 1;64:173-84. doi: 10.1016/j.neuroimage.2012.08.082. Epub 2012 Sep 6.
In this paper the cerebral blood flow (CBF) in resting state obtained from SPECT imaging is employed as a hemodynamics descriptor to study the concurrent changes between brain structures and to build binarized connectivity graphs. The statistical similarity in CBF between pairs of regions was measured by computing the Pearson correlation coefficient across 31 normal subjects. We demonstrated the CBF connectivity matrices follow 'small-world' attributes similar to previous studies using different modalities of neuroimaging data (MRI, fMRI, EEG, MEG). The highest concurrent fluctuations in CBF were detected between homologous cortical regions (homologous callosal connections). It was found that the existence of structural core regions or hubs positioned on a high proportion of shortest paths within the CBF network. These were anatomically distributed in frontal, limbic, occipital and parietal regions that suggest its important role in functional integration. Our findings point to a new possibility of using CBF variable to investigate the brain networks based on graph theory in normal and pathological states. Likewise, it opens a window to future studies to link covariation between morphometric descriptors, axonal connectivity and CBF processes with a potential diagnosis applications.
本文利用 SPECT 成像获得的静息状态脑血流 (CBF) 作为血液动力学描述符,研究大脑结构的同时变化,并构建二值化连接图。通过在 31 名正常受试者中计算 Pearson 相关系数,测量了区域之间 CBF 的统计相似性。我们证明了 CBF 连接矩阵具有与之前使用不同神经影像学数据(MRI、fMRI、EEG、MEG)模态的研究相似的“小世界”属性。在同源皮质区域(同源胼胝体连接)之间检测到最高的 CBF 并发波动。结果发现,结构核心区域或枢纽的存在位于 CBF 网络内最短路径的高比例上。这些区域在额、边缘、枕和顶叶区域内具有解剖分布,表明其在功能整合中的重要作用。我们的研究结果为使用 CBF 变量在正常和病理状态下基于图论研究脑网络提供了一种新的可能性。同样,它为未来的研究打开了一扇窗口,将形态描述符、轴突连接和 CBF 过程之间的共变与潜在的诊断应用联系起来。
