Emilie ZANIN1, Jean-Philippe Ranjeva1,
Sylviane Confort-Gouny1, Maxime Guye1, Danielle Denis2,
Patrick J. Cozzone1, Nadine GIRARD1
1CRMBM UMR CNRS 6612,
Objective
of this study was to demonstrate the ability of DTI tractography, to assess
in vivo and in utero a crucial stage of human fetal brain development: the
white matter maturation. We observed that evolution of diffusion
characteristics during gestation were different for cortical spinal tract,
optic radiations, anterior, middle and posterior part of corpus callosum
reflecting the presence of structural heterogeneity between these large WM
tracts during gestation. Non-linear curve fittings of normalized longitudinal
and radial water diffusivities as a function of age identify 3 different
phases of maturation with specific dynamics for each WM bundle type.