Title :
Coupling dense and landmark-based approaches for nonrigid registration
Author :
Hellier, Pierre ; Barillot, Christian
Author_Institution :
IRISA/INRIA-CNRS Rennes, France
Abstract :
We investigate the introduction of cortical constraints for non rigid intersubject brain registration. We extract sulcal patterns with the active ribbon method, presented by Le Goualher et al. (1997). An energy based registration method (Hellier et al., 2001), which will be called photometric registration method in this paper, makes it possible to incorporate the matching of cortical sulci. The local sparse similarity and the photometric similarity are, thus, expressed in a unified framework. We show the benefits of cortical constraints on a database of 18 subjects, with global and local assessment of the registration. This new registration scheme has also been evaluated on functional magnetoencephalography data. We show that the anatomically constrained registration leads to a substantial reduction of the intersubject functional variability.
Keywords :
brain; feature extraction; image matching; image registration; magnetoencephalography; medical image processing; photometry; active ribbon method; anatomically constrained registration; cortical constraints; cortical sulci; database; dense approach; electroencephalography; energy based registration method; functional magnetic resonance imaging; functional magnetoencephalography data; global assessment; intersubject brain registration; intersubject functional variability; landmark-based approach; local assessment; local sparse similarity; nonrigid registration; photometric registration method; photometric similarity; positron emission tomography; single photon emission computed tomography; sulcal patterns; unified framework; Anatomical structure; Anatomy; Biomedical imaging; Databases; Deformable models; Labeling; Magnetoencephalography; Medical treatment; Photometry; Robustness; Algorithms; Anatomy, Cross-Sectional; Brain; Cerebral Cortex; Elasticity; Fingers; Humans; Image Enhancement; Image Interpretation, Computer-Assisted; Imaging, Three-Dimensional; Magnetic Resonance Imaging; Magnetoencephalography; Motion; Pattern Recognition, Automated; Reference Values; Reproducibility of Results; Sensitivity and Specificity; Subtraction Technique;
Journal_Title :
Medical Imaging, IEEE Transactions on
DOI :
10.1109/TMI.2002.808365
