1 Duke University School of Medicine, Durham, NC.
AJR Am J Roentgenol. 2014 Jan;202(1):W19-25. doi: 10.2214/AJR.12.9791.
We set out to determine functional white matter (WM) connections passing through the canine corpus callosum; these WM connections would be useful for subsequent studies of canine brains that serve as models for human WM pathway disease. Based on prior studies, we anticipated that the anterior corpus callosum would send projections to the anterior cerebral cortex whereas progressively posterior segments would send projections to more posterior cortex.
A postmortem canine brain was imaged using a 7-T MRI system producing 100-μm-isotropic-resolution diffusion-tensor imaging analyzed by tractography. Using regions of interest (ROIs) within cortical locations, which were confirmed by a Nissl stain that identified distinct cortical architecture, we successfully identified six important WM pathways. We also compared fractional anisotropy (FA), apparent diffusion coefficient (ADC), radial diffusivity, and axial diffusivity in tracts passing through the genu and splenium.
Callosal fibers were organized on the basis of cortical destination (e.g., fibers from the genu project to the frontal cortex). Histologic results identified the motor cortex on the basis of cytoarchitectonic criteria that allowed placement of ROIs to discriminate between frontal and parietal lobes. We also identified cytoarchitecture typical of the orbital frontal, anterior frontal, and occipital regions and placed ROIs accordingly. FA, ADC, radial diffusivity, and axial diffusivity values were all higher in posterior corpus callosum fiber tracts.
Using six cortical ROIs, we identified six major WM tracts that reflect major functional divisions of the cerebral hemispheres, and we derived quantitative values that can be used for study of canine models of human WM pathologic states.
我们旨在确定穿过犬胼胝体的功能性白质(WM)连接;这些 WM 连接将有助于后续研究作为人类 WM 通路疾病模型的犬脑。基于先前的研究,我们预计前胼胝体将投射到大脑前皮质,而逐渐向后的节段将投射到更后的皮质。
使用 7-T MRI 系统对死后犬脑进行成像,产生 100-μm 各向同性分辨率弥散张量成像,通过束追踪进行分析。使用皮质位置内的感兴趣区域(ROI),通过尼氏染色确认这些 ROI 确定了独特的皮质结构,我们成功识别了六个重要的 WM 通路。我们还比较了穿过膝部和压部的束中的分数各向异性(FA)、表观扩散系数(ADC)、径向扩散系数和轴向扩散系数。
胼胝体纤维根据皮质目的地进行组织(例如,来自膝部的纤维投射到额叶皮质)。组织学结果根据细胞构筑学标准识别运动皮质,允许放置 ROI 以区分额叶和顶叶。我们还识别了眶额、额前和枕叶区域的典型细胞构筑,并相应地放置 ROI。后部胼胝体纤维束的 FA、ADC、径向扩散系数和轴向扩散系数值均较高。
使用六个皮质 ROI,我们确定了六个主要的 WM 束,反映了大脑半球的主要功能分区,并且我们得出了可以用于研究犬类人类 WM 病理状态模型的定量值。