Title :
3D elastic registration improves HARDI-derived fiber alignment and automated tract clustering
Author :
Jin, Yan ; Shi, Yonggang ; Jahanshad, Neda ; Aganj, Iman ; Sapiro, Guillermo ; Toga, Arthur W. ; Thompson, Paul M.
Author_Institution :
Dept. of Neurology, Lab. of Neuro Imaging, Los Angeles, CA, USA
fDate :
March 30 2011-April 2 2011
Abstract :
High angular resolution diffusion imaging (HARDI) allows population studies of fiber integrity and connectivity. Tractography can extract individual fibers. For group studies, fibers must be clustered into recognizable bundles found consistently across subjects. Nonlinear image registration may improve population clustering. To test this, we performed whole-brain tractography with an orientation distribution function based Hough transform method in 20 young adults scanned with 4 Tesla, 105-gradient HARDI. We warped all extracted fibers to a geometrically-centered template using a 3D elastic registration driven by fractional anisotropy maps, to align embedded tracts. Fiber alignment was evaluated by calculating distances among corresponding fibers across subjects. Before and after warping, we performed spectral clustering of the fibers using a k-means method, based on eigenvectors of a fiber similarity matrix. In tests with an overlap metric, non-rigid fiber warping yielded more robust clustering results. Non-rigid warping is therefore advantageous for population studies using multi-subject tract clustering.
Keywords :
Hough transforms; biodiffusion; biomedical MRI; brain; eigenvalues and eigenfunctions; image registration; medical image processing; pattern clustering; 3D elastic registration; HARDI-derived fiber alignment; Hough transform; automated tract clustering; eigenvectors; fiber alignment; fiber connectivity; fiber integrity; fiber similarity matrix; fractional anisotropy maps; high angular resolution diffusion imaging; k-means method; multisubject tract clustering; nonlinear image registration; nonrigid fiber warping; population clustering; whole brain tractography; Biomedical imaging; Clustering algorithms; Image registration; Image resolution; Optical fiber testing; Three dimensional displays; HARDI; Image Registration; Non-rigid Fiber Warping; Spectral Clustering; Tractography;
Conference_Titel :
Biomedical Imaging: From Nano to Macro, 2011 IEEE International Symposium on
Conference_Location :
Chicago, IL
Print_ISBN :
978-1-4244-4127-3
Electronic_ISBN :
1945-7928
DOI :
10.1109/ISBI.2011.5872531
