Title :
Validation of Non-Rigid Registration Between Functional and Anatomical Magnetic Resonance Brain Images
Author :
Gholipour, Ali ; Kehtarnavaz, Nasser ; Briggs, Richard W. ; Gopinath, Kaundinya S. ; Ringe, Wendy ; Whittemore, Anthony ; Cheshkov, Sergey ; Bakhadirov, Khamid
Author_Institution :
Texas Univ., Richardson
Abstract :
This paper presents a set of validation procedures for nonrigid registration of functional EPI to anatomical MRI brain images. Although various registration techniques have been developed and validated for high-resolution anatomical MRI images, due to a lack of quantitative and qualitative validation procedures, the use of nonrigid registration between functional EPI and anatomical MRI images has not yet been deployed in neuroimaging studies. In this paper, the performance of a robust formulation of a nonrigid registration technique is evaluated in a quantitative manner based on simulated data and is further evaluated in a quantitative and qualitative manner based on in vivo data as compared to the commonly used rigid and affine registration techniques in the neuroimaging software packages. The nonrigid registration technique is formulated as a second-order constrained optimization problem using a free-form deformation model and mutual information similarity measure. Bound constraints, resolution level and cross-validation issues have been discussed to show the degree of accuracy and effectiveness of the nonrigid registration technique. The analyses performed reveal that the nonrigid approach provides a more accurate registration, in particular when the functional regions of interest lie in regions distorted by susceptibility artifacts.
Keywords :
biomedical MRI; brain; image registration; image resolution; medical image processing; neurophysiology; optimisation; software packages; anatomical magnetic resonance brain images; bound constraints; cross-validation issues; free-form deformation model; functional EPI; functional brain images; in vivo data; mutual information similarity; neuroimaging software packages; neuroimaging studies; nonrigid registration technique; regions distortion; resolution level; second-order constrained optimization problem; susceptibility artifacts; Brain; Constraint optimization; Deformable models; In vivo; Magnetic resonance; Magnetic resonance imaging; Mutual information; Neuroimaging; Robustness; Software packages; Brain; functional imaging; magnetic resonance imaging; nonrigid registration; validation; Algorithms; Brain; Brain Mapping; Evoked Potentials; Humans; Image Enhancement; Image Interpretation, Computer-Assisted; Magnetic Resonance Imaging; Phantoms, Imaging; Reproducibility of Results; Sensitivity and Specificity; Subtraction Technique;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2007.912641
