interfaces.semtools.brains.segmentation

BRAINSTalairach

Link to code

Wraps the executable command `` BRAINSTalairach ``.

title: BRAINS Talairach

category: BRAINS.Segmentation

description: This program creates a VTK structured grid defining the Talairach coordinate system based on four points: AC, PC, IRP, and SLA. The resulting structred grid can be written as either a classic VTK file or the new VTK XML file format. Two representations of the resulting grid can be written. The first is a bounding box representation that also contains the location of the AC and PC points. The second representation is the full Talairach grid representation that includes the additional rows of boxes added to the inferior allowing full coverage of the cerebellum.

version: 0.1

documentation-url: http://www.nitrc.org/plugins/mwiki/index.php/brains:BRAINSTalairach

license: https://www.nitrc.org/svn/brains/BuildScripts/trunk/License.txt

contributor: Steven Dunn and Vincent Magnotta

acknowledgements: Funding for this work was provided by NIH/NINDS award NS050568

Inputs:

[Optional]
AC: (a list of items which are a float)
        Location of AC Point
        argument: ``--AC %s``
ACisIndex: (a boolean)
        AC Point is Index
        argument: ``--ACisIndex ``
PC: (a list of items which are a float)
        Location of PC Point
        argument: ``--PC %s``
PCisIndex: (a boolean)
        PC Point is Index
        argument: ``--PCisIndex ``
SLA: (a list of items which are a float)
        Location of SLA Point
        argument: ``--SLA %s``
SLAisIndex: (a boolean)
        SLA Point is Index
        argument: ``--SLAisIndex ``
IRP: (a list of items which are a float)
        Location of IRP Point
        argument: ``--IRP %s``
IRPisIndex: (a boolean)
        IRP Point is Index
        argument: ``--IRPisIndex ``
inputVolume: (an existing file name)
        Input image used to define physical space of images
        argument: ``--inputVolume %s``
outputBox: (a boolean or a file name)
        Name of the resulting Talairach Bounding Box file
        argument: ``--outputBox %s``
outputGrid: (a boolean or a file name)
        Name of the resulting Talairach Grid file
        argument: ``--outputGrid %s``
args: (a unicode string)
        Additional parameters to the command
        argument: ``%s``
environ: (a dictionary with keys which are a bytes or None or a value
          of class 'str' and with values which are a bytes or None or a
          value of class 'str', nipype default value: {})
        Environment variables

Outputs:

outputBox: (an existing file name)
        Name of the resulting Talairach Bounding Box file
outputGrid: (an existing file name)
        Name of the resulting Talairach Grid file

BRAINSTalairachMask

Link to code

Wraps the executable command `` BRAINSTalairachMask ``.

title: Talairach Mask

category: BRAINS.Segmentation

description: This program creates a binary image representing the specified Talairach region. The input is an example image to define the physical space for the resulting image, the Talairach grid representation in VTK format, and the file containing the Talairach box definitions to be generated. These can be combined in BRAINS to create a label map using the procedure Brains::WorkupUtils::CreateLabelMapFromBinaryImages.

version: 0.1

documentation-url: http://www.nitrc.org/plugins/mwiki/index.php/brains:BRAINSTalairachMask

license: https://www.nitrc.org/svn/brains/BuildScripts/trunk/License.txt

contributor: Steven Dunn and Vincent Magnotta

acknowledgements: Funding for this work was provided by NIH/NINDS award NS050568

Inputs:

[Optional]
inputVolume: (an existing file name)
        Input image used to define physical space of resulting mask
        argument: ``--inputVolume %s``
talairachParameters: (an existing file name)
        Name of the Talairach parameter file.
        argument: ``--talairachParameters %s``
talairachBox: (an existing file name)
        Name of the Talairach box file.
        argument: ``--talairachBox %s``
hemisphereMode: ('left' or 'right' or 'both')
        Mode for box creation: left, right, both
        argument: ``--hemisphereMode %s``
expand: (a boolean)
        Expand exterior box to include surface CSF
        argument: ``--expand ``
outputVolume: (a boolean or a file name)
        Output filename for the resulting binary image
        argument: ``--outputVolume %s``
args: (a unicode string)
        Additional parameters to the command
        argument: ``%s``
environ: (a dictionary with keys which are a bytes or None or a value
          of class 'str' and with values which are a bytes or None or a
          value of class 'str', nipype default value: {})
        Environment variables

Outputs:

outputVolume: (an existing file name)
        Output filename for the resulting binary image

SimilarityIndex

Link to code

Wraps the executable command `` SimilarityIndex ``.

title: BRAINSCut:SimilarityIndexComputation

category: BRAINS.Segmentation

description: Automatic analysis of BRAINSCut Output

version: 1.0

license: https://www.nitrc.org/svn/brains/BuildScripts/trunk/License.txt

contributor: Eunyoung Regin Kim

Inputs:

[Optional]
outputCSVFilename: (an existing file name)
        output CSV Filename
        argument: ``--outputCSVFilename %s``
ANNContinuousVolume: (an existing file name)
        ANN Continuous volume to be compared to the manual volume
        argument: ``--ANNContinuousVolume %s``
inputManualVolume: (an existing file name)
        input manual(reference) volume
        argument: ``--inputManualVolume %s``
thresholdInterval: (a float)
        Threshold interval to compute similarity index between zero and one
        argument: ``--thresholdInterval %f``
args: (a unicode string)
        Additional parameters to the command
        argument: ``%s``
environ: (a dictionary with keys which are a bytes or None or a value
          of class 'str' and with values which are a bytes or None or a
          value of class 'str', nipype default value: {})
        Environment variables

Outputs:

None