Ilardan et al examined longitudinal changes in cortical thickness

Ilardan et al examined longitudinal changes in cortical thickness in autistic boys, finding a greater decrease with age in cortical thickness in the autistic individuals than the typically developing boys.73 Brun et al found that autistic boys had enlarged lobes compared with typically developing boys, but voxel-wise analyses also showed gray matter this research deficits in parietal, temporal, and occipital lobes.74 Mengotti et al examined changes in the developmental trajectory of both regional brain volume and structural connectivity in individuals with autism and found that the volume of the inferior Inhibitors,research,lifescience,medical temporal cortex, superior and inferior parietal lobule, and superior occipital

lobe Inhibitors,research,lifescience,medical were larger in individuals with autism, while the volumes of the inferior frontal cortex and supplementary motor cortex were smaller.75 Hua et al examined longitudinal data, and the trajectory of white matter growth was slowed in autistic boys, especially in the

parietal lobe.76 In gray matter, they found accelerated growth in the anterior cingulate cortex and putamen. Diffusion-weighted Inhibitors,research,lifescience,medical imaging Diffusion imaging studies of autism show widespread disruption of white matter tracts, especially between regions implicated in social behavior (Figure 5).77-79 Figure 5. Differences in white matter integrity in autism. Tract-based spatial statistics revealed regions of reduced fractional anisotropy in children with autism spectrum disorder compared with the typically developing group. Inhibitors,research,lifescience,medical Red color symbolizes significant … According to one theory of autism, at least a subset of children with autism experience an initial brain “overgrowth,” after which typically developing children catch up and surpass autistic Inhibitors,research,lifescience,medical children. This is a debated hypothesis in the field, however,80,81 and it may apply to some autistic children but not others. Various findings

support this. Significantly accelerated maturation of the white matter has been found in autistic children.82 Following this overgrowth, the autistic brain may fail to effectively prune connections, leading to disorganization. One AV-951 region has been found to show an interaction of age with diagnostic group: the right posterior limb of the internal capsule decreased in FA with age in typically developing individuals, but it increased with age in individuals with autism.83 It has also been found that the apparent diffusion coefficient (ADC) was negatively associated with age across most of the cortex and the splenium of the corpus callosum in autistic individuals, but no detectable associations with age in typically developing individuals were found.75 Functional connectivity We were unable to find any ref 1 reports of an age by diagnosis interaction effect on functional connectivity in autism. A number of studies have reported effects of autism diagnosis on intrinsic connectivity networks (ICNs).

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