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弥散张量纤维束成像在人类胎儿脑白质中的放射状相干性:神经解剖学见解。

Radial coherence of diffusion tractography in the cerebral white matter of the human fetus: neuroanatomic insights.

机构信息

Department of Pathology, Children's Hospital Boston, Harvard Medical School, Boston, MA 02115, USA.

出版信息

Cereb Cortex. 2014 Mar;24(3):579-92. doi: 10.1093/cercor/bhs330. Epub 2012 Nov 6.

Abstract

High angular resolution diffusion imaging (HARDI) demonstrates transient radial coherence of telencephalic white matter in the human fetus. Our objective was to define the neuroanatomic basis of this radial coherence through correlative HARDI- and postmortem tissue analyses. Applying immunomarkers to radial glial fibers (RGFs), axons, and blood vessels in 18 cases (19 gestational weeks to 3 postnatal years), we compared their developmental profiles to HARDI tractography in brains of comparable ages (n = 11). At midgestation, radial coherence corresponded with the presence of RGFs. At 30-31 weeks, the transition from HARDI-defined radial coherence to corticocortical coherence began simultaneously with the transformation of RGFs to astrocytes. By term, both radial coherence and RGFs had disappeared. White matter axons were radial, tangential, and oblique over the second half of gestation, whereas penetrating blood vessels were consistently radial. Thus, radial coherence in the fetal white matter likely reflects a composite of RGFs, penetrating blood vessels, and radial axons of which its transient expression most closely matches that of RGFs. This study provides baseline information for interpreting radial coherence in tractography studies of the preterm brain in the assessment of the encephalopathy of prematurity.

摘要

高角度分辨率扩散成像(HARDI)显示人类胎儿端脑白质的瞬时放射状相干性。我们的目的是通过 HARDI 和死后组织分析的相关性研究来定义这种放射状相干性的神经解剖学基础。在 18 例(19 孕周至 3 产后年)中应用免疫标志物对放射状胶质纤维(RGFs)、轴突和血管进行标记,并与具有相似年龄的大脑的 HARDI 示踪(n = 11)进行比较。在妊娠中期,放射状相干性与 RGFs 的存在相对应。在 30-31 周时,从 HARDI 定义的放射状相干性到皮质间相干性的转变与 RGFs 向星形胶质细胞的转变同时发生。在足月时,两者的放射状相干性和 RGFs 均消失。白质轴突在妊娠后半期呈放射状、切线状和斜向,而穿透性血管始终呈放射状。因此,胎儿白质中的放射状相干性可能反映了 RGFs、穿透性血管和放射状轴突的复合,其短暂表达与 RGFs 最为匹配。本研究为解释早产儿脑追踪研究中的放射状相干性提供了基线信息,有助于评估早产儿脑病。

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