Apply spatial transformations to an image
mrtransform [ options ] input output
- input: input image to be transformed.
- output: the output image.
If a linear transform is applied without a template image the command will modify the image header transform matrix
FOD reorientation (with apodised point spread functions) can be performed if the number of volumes in the 4th dimension equals the number of coefficients in an antipodally symmetric spherical harmonic series (e.g. 6, 15, 28 etc). For such data, the -reorient_fod yes/no option must be used to specify if reorientation is required.
The output image intensity can be modulated using the (local or global) volume change if a linear or nonlinear transformation is applied. ‘FOD’ modulation preserves the apparent fibre density across the fibre bundle width and can only be applied if FOD reorientation is used. Alternatively, non-directional scaling by the Jacobian determinant can be applied to any image type.
If a DW scheme is contained in the header (or specified separately), and the number of directions matches the number of volumes in the images, any transformation applied using the -linear option will also be applied to the directions.
When the -template option is used to specify the target image grid, the image provided via this option will not influence the axis data strides of the output image; these are determined based on the input image, or the input to the -strides option.
Affine transformation options¶
- -linear transform specify a linear transform to apply, in the form of a 3x4 or 4x4 ascii file. Note the standard ‘reverse’ convention is used, where the transform maps points in the template image to the moving image. Note that the reverse convention is still assumed even if no -template image is supplied
- -flip axes flip the specified axes, provided as a comma-separated list of indices (0:x, 1:y, 2:z).
- -inverse apply the inverse transformation
- -half apply the matrix square root of the transformation. This can be combined with the inverse option.
- -replace file replace the linear transform of the original image by that specified, rather than applying it to the original image. The specified transform can be either a template image, or a 3x4 or 4x4 ascii file.
- -identity set the header transform of the image to the identity matrix
- -template image reslice the input image to match the specified template image grid.
- -midway_space reslice the input image to the midway space. Requires either the -template or -warp option. If used with -template and -linear option the input image will be resliced onto the grid halfway between the input and template. If used with the -warp option the input will be warped to the midway space defined by the grid of the input warp (i.e. half way between image1 and image2)
- -interp method set the interpolation method to use when reslicing (choices: nearest, linear, cubic, sinc. Default: cubic).
- -oversample factor set the amount of over-sampling (in the target space) to perform when regridding. This is particularly relevant when downsamping a high-resolution image to a low-resolution image, to avoid aliasing artefacts. This can consist of a single integer, or a comma-separated list of 3 integers if different oversampling factors are desired along the different axes. Default is determined from ratio of voxel dimensions (disabled for nearest-neighbour interpolation).
Non-linear transformation options¶
- -warp image apply a non-linear 4D deformation field to warp the input image. Each voxel in the deformation field must define the scanner space position that will be used to interpolate the input image during warping (i.e. pull-back/reverse warp convention). If the -template image is also supplied the deformation field will be resliced first to the template image grid. If no -template option is supplied then the output image will have the same image grid as the deformation field. This option can be used in combination with the -affine option, in which case the affine will be applied first)
- -warp_full image warp the input image using a 5D warp file output from mrregister. Any linear transforms in the warp image header will also be applied. The -warp_full option must be used in combination with either the -template option or the -midway_space option. If a -template image is supplied then the full warp will be used. By default the image1->image2 transform will be applied, however the -from 2 option can be used to apply the image2->image1 transform. Use the -midway_space option to warp the input image to the midway space. The -from option can also be used to define which warp to use when transforming to midway space
- -from image used to define which space the input image is when using the -warp_mid option. Use -from 1 to warp from image1 or -from 2 to warp from image2
Fibre orientation distribution handling options¶
- -modulate intensity modulation method Valid choices are: fod and jac.
fod: modulate FODs during reorientation to preserve the apparent fibre density across fibre bundle widths before and after the transformation.
jac: modulate the image intensity with the determinant of the Jacobian of the warp of linear transformation to preserve the total intensity before and after the transformation.
- -directions file directions defining the number and orientation of the apodised point spread functions used in FOD reorientation (Default: 300 directions)
- -reorient_fod boolean specify whether to perform FOD reorientation. This is required if the number of volumes in the 4th dimension corresponds to the number of coefficients in an antipodally symmetric spherical harmonic series with lmax >= 2 (i.e. 6, 15, 28, 45, 66 volumes).
DW gradient table import options¶
- -grad file Provide the diffusion-weighted gradient scheme used in the acquisition in a text file. This should be supplied as a 4xN text file with each line is in the format [ X Y Z b ], where [ X Y Z ] describe the direction of the applied gradient, and b gives the b-value in units of s/mm^2. If a diffusion gradient scheme is present in the input image header, the data provided with this option will be instead used.
- -fslgrad bvecs bvals Provide the diffusion-weighted gradient scheme used in the acquisition in FSL bvecs/bvals format files. If a diffusion gradient scheme is present in the input image header, the data provided with this option will be instead used.
DW gradient table export options¶
- -export_grad_mrtrix path export the diffusion-weighted gradient table to file in MRtrix format
- -export_grad_fsl bvecs_path bvals_path export the diffusion-weighted gradient table to files in FSL (bvecs / bvals) format
Data type options¶
- -datatype spec specify output image data type. Valid choices are: float32, float32le, float32be, float64, float64le, float64be, int64, uint64, int64le, uint64le, int64be, uint64be, int32, uint32, int32le, uint32le, int32be, uint32be, int16, uint16, int16le, uint16le, int16be, uint16be, cfloat32, cfloat32le, cfloat32be, cfloat64, cfloat64le, cfloat64be, int8, uint8, bit.
- -strides spec specify the strides of the output data in memory; either as a comma-separated list of (signed) integers, or as a template image from which the strides shall be extracted and used. The actual strides produced will depend on whether the output image format can support it.
Additional generic options for mrtransform¶
- -nan Use NaN as the out of bounds value (Default: 0.0)
- -no_reorientation deprecated, use -reorient_fod instead
- -info display information messages.
- -quiet do not display information messages or progress status; alternatively, this can be achieved by setting the MRTRIX_QUIET environment variable to a non-empty string.
- -debug display debugging messages.
- -force force overwrite of output files (caution: using the same file as input and output might cause unexpected behaviour).
- -nthreads number use this number of threads in multi-threaded applications (set to 0 to disable multi-threading).
- -config key value (multiple uses permitted) temporarily set the value of an MRtrix config file entry.
- -help display this information page and exit.
- -version display version information and exit.
- If FOD reorientation is being performed:
Raffelt, D.; Tournier, J.-D.; Crozier, S.; Connelly, A. & Salvado, O. Reorientation of fiber orientation distributions using apodized point spread functions. Magnetic Resonance in Medicine, 2012, 67, 844-855
- If FOD modulation is being performed:
Raffelt, D.; Tournier, J.-D.; Rose, S.; Ridgway, G.R.; Henderson, R.; Crozier, S.; Salvado, O.; Connelly, A.; Apparent Fibre Density: a novel measure for the analysis of diffusion-weighted magnetic resonance images. NeuroImage, 2012, 15;59(4), 3976-94
Tournier, J.-D.; Smith, R. E.; Raffelt, D.; Tabbara, R.; Dhollander, T.; Pietsch, M.; Christiaens, D.; Jeurissen, B.; Yeh, C.-H. & Connelly, A. MRtrix3: A fast, flexible and open software framework for medical image processing and visualisation. NeuroImage, 2019, 202, 116137
Author: J-Donald Tournier (firstname.lastname@example.org) and David Raffelt (email@example.com) and Max Pietsch (firstname.lastname@example.org)
Copyright: Copyright (c) 2008-2021 the MRtrix3 contributors.
This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0. If a copy of the MPL was not distributed with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
Covered Software is provided under this License on an “as is” basis, without warranty of any kind, either expressed, implied, or statutory, including, without limitation, warranties that the Covered Software is free of defects, merchantable, fit for a particular purpose or non-infringing. See the Mozilla Public License v. 2.0 for more details.
For more details, see http://www.mrtrix.org/.