Difference between revisions of "EMSegmenter-Tasks:MRI-Human-Brain-Parcellation"

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* Johnson H.J., Harris G., Williams K. [http://hdl.handle.net/1926/1291 BRAINSFit: Mutual Information Registrations of Whole-Brain 3D Images, Using the Insight Toolkit], The Insight Journal, July 2007
 
* Johnson H.J., Harris G., Williams K. [http://hdl.handle.net/1926/1291 BRAINSFit: Mutual Information Registrations of Whole-Brain 3D Images, Using the Insight Toolkit], The Insight Journal, July 2007
 
* M. Nakamura, D. F. Salisbury, Y. Hirayasu, S. Bouix, K. Pohl, T. Yoshida, M. Koo, M. Koo, R. McCarley. Neocortical Gray Matter Volume in First-Episode Schizophrenia and First-Episode Affective Psychosis: A Cross-Sectional and Longitudinal MRI Study. Biological Psychiatry .Volume 62, Number 7, Pages 773-783. 2007
 
* M. Nakamura, D. F. Salisbury, Y. Hirayasu, S. Bouix, K. Pohl, T. Yoshida, M. Koo, M. Koo, R. McCarley. Neocortical Gray Matter Volume in First-Episode Schizophrenia and First-Episode Affective Psychosis: A Cross-Sectional and Longitudinal MRI Study. Biological Psychiatry .Volume 62, Number 7, Pages 773-783. 2007
 +
* T. Vercauteren, X. Pennec, A. Perchant, N. Ayache. Symmetric Log-Domain Diffeomorphic Registration: A Demons-based Approach. MICCAI 2008

Revision as of 17:01, 9 December 2010

Home < EMSegmenter-Tasks:MRI-Human-Brain-Parcellation

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Description

MRI Human Head pipeline for a finer-grained parcellation (TODO: Priya please provide description and proper citation)

The pipeline consist of the following steps:

  • Step 1: Perform image inhomogeneity correction of the MRI scan via N4ITKBiasFieldCorrection (Tustison et al 2010)
  • Step 2: Register the atlas to the MRI scan via BRAINSFit (Johnson et al 2007)
  • Step 3: Compute the intensity distributions for each structure

Compute intensity distribution (mean and variance) for each label by automatically sampling from the MR scan. The sampling for a specific label is constrained to the region that consists of voxels with high probability (top 95%) of being assigned to the label according to the aligned atlas.

  • Step 4: Automatically segment the MRI scan into the structures of interest using EM Algorithm (Pohl et al 2007)

Anatomical Tree

The anatomical tree represents the structures to be segmented. Node labels displayed below contain a human readable structure name and in parentheses the internally used structure name.

  • Root
    • background (BG)
    • grey matter (GM)
      • left grey matter (LTGM)
        • left grey matter - region 1 (LTGM1)
        • left grey matter - region 2 (LTGM2)
        • left grey matter - region 3 (LTGM3)
        • left grey matter - region 4 (LTGM4)
      • right grey matter (RTGM)
        • right grey matter - region 1 (RTGM1)
        • right grey matter - region 2 (RTGM2)
        • right grey matter - region 3 (RTGM3)
        • right grey matter - region 4 (RTGM4)
      • subcortical grey matter (SUBGM)
    • white matter (WM)
      • left white matter (LTWM)
        • left white matter - region 1 (LTWM1)
        • left white matter - region 2 (LTWM2)
        • left white matter - region 3 (LTWM3)
        • left white matter - region 4 (LTWM4)
      • right white matter (RTWM)
        • right white matter - region 1 (RTWM1)
        • right white matter - region 2 (RTWM2)
        • right white matter - region 3 (RTWM3)
        • right white matter - region 4 (RTWM4)
      • subcortical white matter (SUBWM)
    • cerebrospinal fluid (CSF)

Atlas

The atlas has been created by Padmapriya Srinivasan and Ryan Eckbo and Sylvain Bouix from (PNL-BWH)

Image Dimension = 256 x 256 x 220
Image Spacing = 0.9375 x 0.9375 x 0.9375

Briefly, the steps followed for creating the atlases are described here:

For each case from previous manually segmented 1.5T scans (Nakamura et al, 2007), binary label maps for the 20 leaves (BG,ltgm1-ltgm4, rtgm1-rtgm4, subgm, ltwm1-ltwm4, rtwm1-rtwm4, subwm and CSF) to be segmented were obtained. Initially, all these label maps were respectively affine transformed to a pre-determined case. A diffeomorphic registration algorithm was applied and this produced warps of all the regions for all the cases. The warps were applied to the original images and all the images for respective regions are aligned in a final atlas space. Probability maps are then determined by averaging the images for respective regions i.e. BG, ltgm1, ltgm2, CSF etc.


EMSegmenter MRIHumanBrainParcellation t1.png EMSegmenter MRIHumanBrainParcellation csf.png EMSegmenter MRIHumanBrainParcellation ltgm1.png EMSegmenter MRIHumanBrainParcellation ltwm1.png
Template (T1) CSF Left GM Left WM

Result

MRI-Human-Brain-Parcellation T1 3x360x360.png MRI-Human-Brain-Parcellation 3x360x360.png

Collaborators

Padmapriya Srinivasan and Sylvain Bouix (PNL-BWH)

Acknowledgment

The construction of the pipeline was supported by funding from NIH NCRR 2P41RR013218 Supplement.

Citations

  • Tustison NJ, Avants BB, Cook PA, Zheng Y, Egan A, Yushkevich PA, Gee JC N4ITK: Improved N3 Bias Correction, IEEE Trans Med Imag, 2010
  • Pohl K, Bouix S, Nakamura M, Rohlfing T, McCarley R, Kikinis R, Grimson W, Shenton M, Wells W. A Hierarchical Algorithm for MR Brain Image Parcellation. IEEE Transactions on Medical Imaging. 2007 Sept;26(9):1201-1212.
  • S. Warfield, J. Rexilius, P. Huppi, T. Inder, E. Miller, W. Wells, G. Zientara, F. Jolesz, and R. Kikinis, “A binary entropy measure to assess nonrigid registration algorithms,” in MICCAI, LNCS, pp. 266–274, Springer, October 2001.
  • Johnson H.J., Harris G., Williams K. BRAINSFit: Mutual Information Registrations of Whole-Brain 3D Images, Using the Insight Toolkit, The Insight Journal, July 2007
  • M. Nakamura, D. F. Salisbury, Y. Hirayasu, S. Bouix, K. Pohl, T. Yoshida, M. Koo, M. Koo, R. McCarley. Neocortical Gray Matter Volume in First-Episode Schizophrenia and First-Episode Affective Psychosis: A Cross-Sectional and Longitudinal MRI Study. Biological Psychiatry .Volume 62, Number 7, Pages 773-783. 2007
  • T. Vercauteren, X. Pennec, A. Perchant, N. Ayache. Symmetric Log-Domain Diffeomorphic Registration: A Demons-based Approach. MICCAI 2008