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Abstract #0692
Novel MR for Fetal Morphometry
Colin Studholme
University of
Washington
,
Seattle
,
WA
, USA
Abstract PDF
Keywords
ability abnormal accelerates accuracy accurately achieve addition adult advances ages allow allows amenable analyses anatomies anatomy approaches asymmetries asymmetry atlas atlases automated automatically avoid biomedical boundaries brain brains careful classification combining complex computational consistent constrained construct construction containing coordinate correction cortical deformations delineated detect detection developed direct directly distributions dramatically drive driven early efficient emergence engineering estimation examine expansion extract fast fetal field fine folded folding form formation formulation fraction frame framework geometric growth head human ideas initial intersections involves iterative labeling local majority make makes making manual mapping matching modeling models motion moving necessary newer novel optimization overcome patterns permits plate pose post practical press priors probe processing proposed putative quantify quantitatively rather reconstruction refined regional registration replace representations resolution reveal reveals review scale scattered schemes segmentation signs slice slices spatial squares statistical step studies subtle surface symmetric synthesize tensor tissue trans underlying unique unlike variety volume volumes week zones
brain
tissue
fetal
formation
growth
early
human
slice
adult
automated
boundaries
cortical
local
motion
patterns
reconstruction
scale
spatial
statistical
zones
ability
accurately
allow
allows
amenable
approaches
brains
consistent
construction
detect
estimation
fine
folding
form
labeling
mapping
permits
plate
registration
segmentation
studies
subtle
surface
symmetric
volume
week
abnormal
