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9 September 1994 Automated 3D nonlinear deformation procedure for determination of gross morphometric variability in human brain
D. Louis Collins, Terence M. Peters, Alan C. Evans
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Proceedings Volume 2359, Visualization in Biomedical Computing 1994; (1994) https://doi.org/10.1117/12.185178
Event: Visualization in Biomedical Computing 1994, 1994, Rochester, MN, United States
Abstract
We describe an automated method to register MRI volumetric datasets to a digital human brain model. The technique employs 3D non-linear warping based on the estimation of local deformation fields using cross-correlation of invariant intensity features derived from image data. Results of the non-linear registration on a simple phantom, a complex brain phantom and real MRI data are presented. Anatomical variability is expressed with respect to the Talairach-like standardized brain-based coordinate system of the model. We show that the automated non-linear registration reduces the inter-subject variability of homologous points in standardized space by 15% over linear registration methods. A 3D variability map is shown.
© (1994) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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D. Louis Collins, Terence M. Peters, and Alan C. Evans "Automated 3D nonlinear deformation procedure for determination of gross morphometric variability in human brain", Proc. SPIE 2359, Visualization in Biomedical Computing 1994, (9 September 1994); https://doi.org/10.1117/12.185178
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KEYWORDS
Brain
Data modeling
Magnetic resonance imaging
Brain mapping
3D modeling
Image registration
3D acquisition
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