Title of article
Blackwell Publishing, Ltd. Cerebral cortex three-dimensional profiling in human fetuses by magnetic resonance imaging
Author/Authors
Andrea Sbarbati، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
10
From page
465
To page
474
Abstract
Seven human fetuses of crown/rump length corresponding to gestational ages ranging from the 12th to the 16th
week were studied using a paradigm based on three-dimensional reconstruction of the brain obtained by magnetic
resonance imaging (MRI). The aim of the study was to evaluate brain morphology
in situ
and to describe developmental
dynamics during an important period of fetal morphogenesis. Three-dimensional MRI showed the increasing
degree of maturation of the brains; fronto-occipital distance, bitemporal distance and occipital angle were
examined in all the fetuses. The data were interpreted by correlation with the internal structure as visualized using
high-spatial-resolution MRI, acquired using a 4.7-T field intensity magnet with a gradient power of 20 G cm
−
1
. The
spatial resolution was sufficient for a detailed detection of five layers, and the contrast was optimized using
sequences with different degrees of T1 and T2 weighting. Using the latter, it was possible to visualize the subplate
and marginal zones. The cortical thickness was mapped on to the hemispheric surface, describing the thickness
gradient from the insular cortex to the periphery of the hemispheres. The study demonstrates the utility of MRI
for studying brain development. The method provides a quantitative profiling of the brain, which allows the
calculation of important morphological parameters, and it provides informative regarding transient features of the
developing brain.
Keywords
development , Fetal , Neuroimaging , Neuronal migration , Neuroradiology , Subplate zone
Journal title
Journal of Anatomy Wily
Serial Year
2004
Journal title
Journal of Anatomy Wily
Record number
834973
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