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Regional Spatial Normalization: Toward an Optimal Target

Authors :
Paul M. Thompson
Peter Kochunov
John C. Mazziotta
Peter T. Fox
Roger P. Woods
Jack L. Lancaster
Jean Hardies
Source :
ResearcherID
Publication Year :
2001
Publisher :
Ovid Technologies (Wolters Kluwer Health), 2001.

Abstract

Purpose The purpose of this work was to develop methods for defining, constructing, and evaluating a "minimal deformation target" (MDT) brain for multisubject studies based on analysis of the entire group. The goal is to provide a procedure that will create a standard, reproducible target brain image based on common features of a group of three-dimensional MR brain images. Method The average deformation and dispersion distance, derived from discrete three-dimensional deformation fields (DFs), are used to identify the best individual target (BIT) brain. This brain is assumed to be the one with the minimal deformation bias within a group of MR brain images. The BIT brain is determined as the one with the minimal target quality score, our cost function based on the deformation displacement and dispersion distance. The BIT brain is then transformed to the MDT brain using an average DF to create an optimized target brain. This analysis requires the calculation of a large number of DFs. To overcome this limitation, we developed an analysis method (the fast method) that reduces the task from order N2 complexity to one of order N, a tremendous advantage for large-N studies. Results Multiscale correlation analysis in a group of 20 subjects demonstrated the superiority of warping using the MDT target brain, made from the BIT brain, over several individual and MDT-transformed target brains also from the group. Conclusion Analysis of three-dimensional DF provides a means to quickly create a reproducible MDT target brain for any set of subjects. Warping to the MDT target was shown by an independent multiscale correlation method to produce superior results.

Details

ISSN :
03638715
Volume :
25
Database :
OpenAIRE
Journal :
Journal of Computer Assisted Tomography
Accession number :
edsair.doi.dedup.....9cf20e2256bfb52f46dea9822d33bc72
Full Text :
https://doi.org/10.1097/00004728-200109000-00023