Lightweight GUI for sorting MELODIC ICA components.
Project description
PICAchooser
A simple gui tool for scanning through MELODIC probabalistic ICA runs and quickly making decisions about which components to retain. This tool does one thing, but it does it quickly and easily using only keyboard input.
Basically, PICAchooser loads the results of a MELODIC ICA run and lets you step through the components, look at them, and decide if you want to keep them or discard them. After you load the dataset, you get a window showing the active IC component (both the timecourse and the spatial map), the power spectrum of the active IC component, and the motion timecourses for comparison. By default, components are flagged to be kept (and the timecourses are in green*).
Usage
usage: PICAchooser runmode [options]
A program to review (and alter) melodic component selections.
positional arguments:
runmode. Valid choices are “melodic”, “groupmelodic”, “aroma”, and “fix”.
In melodic mode, the default output file is named “badcomponents.txt”; components flagged for removal will be written to MELODICDIR as comma separated integers. Component numbers start at 1 (for compatibility with fsl_regfilt).
In groupmelodic mode, the default output file is named “goodcomponents.txt”; components which are worth keeping will be written to MELODICDIR as integers, one per line. Component numbers start at 0 (for compatibility with standard NIFTI array indexing).
In aroma mode, the file “classified_motion_ICs.txt” must exist in the parent of MELODICDIR; by default the output will be written to “classified_motion_ICs_revised.txt” in the same directory. Component numbers start at 1 (for compatibility with AROMA numbering convention).
In fix mode, the default output file is named “hand_labels_noise.txt” and will be written to MELODICDIR as comma separated integers with square brackets surrounding the line. Component numbers start at 1 (for compatibility with FIX numbering convention).
optional arguments: -h, –help show this help message and exit
Standard input file location specification:
–featdir FEATDIR The FEAT directory associated with this MELODIC run.
–melodicdir MELODICDIR The .ica directory for this MELODIC run.
Nonstandard input file location specification: –backgroundfile BGFILE The anatomic file on which to display the ICs (usually found in FEATDIR/reg/example_func.nii.gz), –funcfile FUNCFILE The functional file to be filtered (usually found in FEATDIR/filtered_func_data.nii.gz), –motionfile MOTIONFILE The anatomic file on which to display the ICs (usually found in FEATDIR/mc/prefiltered_func_data_mcf.par). If the file has a .tsv extension, assume it is an fmriprep confounds file. –ICfile ICFILE The independent component file produced by MELODIC (usually found in MELODICDIR/melodic_IC.nii.gz). –ICmask ICMASK The independent component mask file produced by MELODIC (usually found in MELODICDIR/mask.nii.gz). –timecoursefile MIXFILE The timecourses of the independant components (usually found in MELODICDIR/melodic_mix),
Other arguments: –initfile INITFILE The name of an initial bad component file (in aroma mode, this overrides the default input file for AROMA). –outputfile OUTPUTFILE Where to write the bad component file (this overrides the default output file name). –filteredfile FILTEREDFILE The name of the filtered NIFTI file. If this is set, then when the bad component file is written, the command to generate the filtered file will be printed to the terminal window. –displaythresh DISPLAYTHRESH z threshold for the displayed ICA components. Default is 2.3.
Configuration arguments: –keepcolor KEEPCOLOR Set the color of timecourses to be kept (default is “g”). –discardcolor DISCARDCOLOR Set the color of timecourses to discard (default is “r”). –transmotlimits LOWERLIM UPPERLIM Override the “normal” limits of translational motion from the values in the configuration file to LOWERLIM-UPPERLIM mm. –rotmotlimits LOWERLIM UPPERLIM Override the “normal” limits of rotations motion from the values in the configuration file to LOWERLIM-UPPERLIM radians. –scalemotiontodata Scale motion plots to the motion timecourse values rather than to the limit lines. –componentlinewidth LINEWIDTH Override the component line width (in pixels) in the configuration file with LINEWIDTH. –motionlinewidth LINEWIDTH Override the motion timecourse line widths (in pixels) in the configuration file with LINEWIDTH. –motionlimitlinewidth LINEWIDTH Override the line widths of the motion limit lines (in pixels) in the configuration file with LINEWIDTH. ```
You’ll then get a window that looks like this:
Controls
To toggle whether the current component should be kept or discarded, press the up or down arrow key. You can change back and forth as much as you want. Components to be discarded are in red, ones to be kept are in green*.
To go to the next (or previous) component, press the right (or left) arrow. You’ll wrap around if you hit the end.
Press the escape key at any time to save the current version of the component list. The component list is saved automatically when you quit.
Input file specification
For most datasets, you only need to specify the FEAT directory where the preprocessing was done, and the MELODIC directory where the ICA analysis was performed, and PICAchooser can find all the files it needs to let you do component selection. In some cases, however (looking at you, fmriprep), the files you need to find can be scattered all over the place, with different names (and even different formats). In those cases, you can specify the name and location of every one of the files separately (anything you set with these options will override the default locations calculated from the FEATDIR and MELODICDIR).
Other command line options
–initfile lets you read in a bad component file from anywhere to use as a starting point in your classification. It’s the normal behavior in aroma mode (reading from MELODICDIR/../classified_motion_ICs.txt), but you can do it in any mode with this flag, and it will override the aroma classifications.
–outputfile lets you write the bad component file anywhere you want, rather than just the default location.
–filteredfile specifies where the filtered file would go. If this is set, PICAchooser prints the fsl_regfilt command to filter the data using the currently tagged bad components whenever the file is saved (when the escape key is pressed, or when you quit).
–displaythresh sets the z-threshold for the component maps.
–spatialroi XMIN XMAX YMIN YMAX ZMIN ZMAX lets you zoom in on a cubic ROI within the NIFTI dataset. Useful if you did a constrained ICA on a particular brain region. Set the MAX value to -1 to go to the maximum value for a given dimension. These are voxel indices, with 0 being the first element of each dimension.
* Configuration changes
You can use –keepcolor, –discardcolor, –transmotlimits and –rotmotlimits to alter display behavior for the current run (useful if you’re using the docker container). To change things semi-permanently, edit the file ${HOME}/.picachooser.json. This file is created with default values if it is not present. You can use any valid python color specification string for color values, e.g. “r”, “ff0000”, or “FF0000” could all be used for red.
–componentlinewidth, –motionlinewidth, and –motionlimitlinewidth can all be used to specify various linewidths (in pixels) for the various plots. Useful if you want to make a screenshot pretty for a figure.
–scalemotiontodata autoscales the motion plots to the motion timecourse values rather than to fixed limits.
The motion plots have two dotted lines to indicate “normal” motion limits (by default +/-2.5 mm for translation and +/-0.04 radians for rotation). The locations of these lines are set by “transmotlimits” and “rotmotlimits” in the configuration file. Setting “motionplotstyle” to 0 will remove the lines, and fix the y range of the plots to the limit values. Set the limit line color using “motionlimitcolor”.
Reprocessing fmriprep AROMA analyses
fmriprep reformats things to conform to BIDS standard naming conventions and formatting, so file locations, names, and formats are a little weird. However, you can check components as long as you used an external work directory (you set the “-w” flag during analysis).
A concrete example: I have an analysis in BIDSDIR, and used the option “-w WORKDIR” when I ran fmriprep (with AROMA processing enabled). Say I have a functional run, sub-015_ses-001_task-rest_run-1_bold.nii.gz that I want to redo the AROMA processing on. First off, I need to find my ICfile and IC mask file. They don’t get copied into the derivatives directory, as they are intermediate files, not analysis products. It turns out the entire melodic directory does exist in the work directory. In this particular case, if I set:
–melodicdir ${WORKDIR}/fmriprep_wf/single_subject_015_wf/func_preproc_ses_001_task_rest_run_1_wf/ica_aroma_wf/melodic
then PICAchooser can find the ICfile and ICmask.
The background file is also in this directory:
–backgroundfile ${WORKDIR}/fmriprep_wf/single_subject_015_wf/func_preproc_ses_001_task_rest_run_1_wf/ica_aroma_wf/melodic/mean.nii.gz
Everything else can be found in the functional output directory for this session:
FUNCDIR=${BIDSDIR}/derivatives/fmriprep/sub-015/ses-001/func
By setting the following options:
–initfile ${FUNCDIR}/sub-015_ses-001_task-rest_run-1_AROMAnoiseICs.csv –funcfile ${FUNCDIR}/sub-015_ses-001_task-rest_run-1_space-MNI152NLin6Asym_desc-preproc_bold.nii.gz –motionfile ${FUNCDIR}/sub-015_ses-001_task-rest_run-1_desc-confounds_regressors.tsv
As a bonus, if you also set:
–filteredfile ${FUNCDIR}/sub-015_ses-001_task-rest_run-1_space-MNI152NLin6Asym_desc-AROMAnonaggr_bold.nii.gz
Then when you save your bad component file, you’ll see the command necessary to refilter your data printed to the terminal window. I haven’t investigated far enough to know when the smoothing implied in the name of the exisiting filtered file comes from, so there may be some other steps to get to exactly the output you’d get from fmriprep…
Support
This code base is being developed and supported by a grant from the US NIH [1R01 NS097512](http://grantome.com/grant/NIH/R01-NS097512-02).
Additional packages used
PICAchooser would not be possible without many additional open source packages. These include:
pyqtgraph:
Luke Campagnola. [PyQtGraph: Scientific Graphics and GUI Library for Python](http://www.pyqtgraph.org)
nibabel:
[Nibabel: Python package to access a cacophony of neuro-imaging file formats](https://github.com/nipy/nibabel) | <https://10.5281/zenodo.591597>
numpy:
Stéfan van der Walt, S. Chris Colbert and Gaël Varoquaux. The NumPy Array: A Structure for Efficient Numerical Computation, Computing in Science & Engineering, 13, 22-30 (2011) | <https:10.1109/MCSE.2011.37>
scipy:
Pauli Virtanen, Ralf Gommers, Travis E. Oliphant, Matt Haberland, Tyler Reddy, David Cournapeau, Evgeni Burovski, Pearu Peterson, Warren Weckesser, Jonathan Bright, Stéfan J. van der Walt, Matthew Brett, Joshua Wilson, K. Jarrod Millman, Nikolay Mayorov, Andrew R. J. Nelson, Eric Jones, Robert Kern, Eric Larson, CJ Carey, İlhan Polat, Yu Feng, Eric W. Moore, Jake VanderPlas, Denis Laxalde, Josef Perktold, Robert Cimrman, Ian Henriksen, E.A. Quintero, Charles R Harris, Anne M. Archibald, Antônio H. Ribeiro, Fabian Pedregosa, Paul van Mulbregt, and SciPy 1.0 Contributors. (2020) SciPy 1.0: Fundamental Algorithms for Scientific Computing in Python. Nature Methods, 17, 261–272 (2020) | <https://doi.org/10.1038/s41592-019-0686-2>
pandas:
McKinney, W., pandas: a foundational Python library for data analysis and statistics. Python for High Performance and Scientific Computing, 2011. 14.
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distributions
Hashes for picachooser-1.1.4-py2.py3-none-any.whl
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | 01e792ff14aaa19a87cf67abff5a86c9d5eff6050bc1fbd715a1d3a815b96b91 |
|
| MD5 | a29c6dc58428c004f7897796f2e6c143 |
|
| BLAKE2b-256 | 6f6c331e08382e703331c5545264c8d9b2c583c021cb4e5f93973aff4b56efae |
