Research Article

Bias between MNI and Talairach coordinates analyzed using the ICBM-152 brain template

  1. Jack L. Lancaster1,2,*,
  2. Diana Tordesillas-Gutiérrez1,
  3. Michael Martinez1,
  4. Felipe Salinas1,
  5. Alan Evans2,3,
  6. Karl Zilles2,4,
  7. John C. Mazziotta2,5,
  8. Peter T. Fox1,2

Article first published online: 31 JAN 2007

DOI: 10.1002/hbm.20345

Issue

Human Brain Mapping

Human Brain Mapping

Volume 28, Issue 11, pages 1194–1205, November 2007

Additional Information

How to Cite

Lancaster, J. L., Tordesillas-Gutiérrez, D., Martinez, M., Salinas, F., Evans, A., Zilles, K., Mazziotta, J. C. and Fox, P. T. (2007), Bias between MNI and Talairach coordinates analyzed using the ICBM-152 brain template. Human Brain Mapping, 28: 1194–1205. doi: 10.1002/hbm.20345

Author Information

  1. 1

    Research Imaging Center, University of Texas Health Science Center, San Antonio, Texas

  2. 2

    International Consortium for Brain Mapping, UCLA, Los Angeles, California

  3. 3

    McConnell Brain Imaging Center, Montreal Neurological Institute

  4. 4

    Institute of Medicine and Brain Imaging Center West (BICW), Jülich, Germany

  5. 5

    Department of Neurology, Brain Mapping Center, David Geffen School of Medicine, UCLA, Los Angeles, California

*Research Imaging Center, University of Texas Health Science Center, San Antonio, Texas

Publication History

  1. Issue published online: 11 OCT 2007
  2. Article first published online: 31 JAN 2007
  3. Manuscript Accepted: 22 AUG 2006
  4. Manuscript Revised: 4 JUN 2006
  5. Manuscript Received: 1 MAR 2006

Funded by

  • National Institute of Mental Health
  • National Institute on Drug Abuse. Grant Number: P20 MH/DA52176
  • National Institute of Mental Health. Grant Number: 5 T32 MH65728-03

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Keywords:

  • spatial normalization;
  • Talairach coordinates;
  • MNI coordinates;
  • reference frame bias;
  • ICBM-152 template;
  • MNI-305 template

Abstract

MNI coordinates determined using SPM2 and FSL/FLIRT with the ICBM-152 template were compared to Talairach coordinates determined using a landmark-based Talairach registration method (TAL). Analysis revealed a clear-cut bias in reference frames (origin, orientation) and scaling (brain size). Accordingly, ICBM-152 fitted brains were consistently larger, oriented more nose down, and translated slightly down relative to TAL fitted brains. Whole brain analysis of MNI/Talairach coordinate disparity revealed an ellipsoidal pattern with disparity ranging from zero at a point deep within the left hemisphere to greater than 1-cm for some anterior brain areas. MNI/Talairach coordinate disparity was generally less for brains fitted using FSL. The mni2tal transform generally reduced MNI/Talairach coordinate disparity for inferior brain areas but increased disparity for anterior, posterior, and superior areas. Coordinate disparity patterns differed for brain templates (MNI-305, ICBM-152) using the same fitting method (FSL/FLIRT) and for different fitting methods (SPM2, FSL/FLIRT) using the same template (ICBM-152). An MNI-to-Talairach (MTT) transform to correct for bias between MNI and Talairach coordinates was formulated using a best-fit analysis in one hundred high-resolution 3-D MR brain images. MTT transforms optimized for SPM2 and FSL were shown to reduced group mean MNI/Talairach coordinate disparity from a 5-13 mm to 1-2 mm for both deep and superficial brain sites. MTT transforms provide a validated means to convert MNI coordinates to Talairach compatible coordinates for studies using either SPM2 or FSL/FLIRT with the ICBM-152 template. Hum Brain Mapp 2007. © 2007 Wiley-Liss, Inc.

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