interfaces.semtools.utilities.brains

BRAINSAlignMSP

Link to code

Wraps command ** BRAINSAlignMSP **

title: Align Mid Saggital Brain (BRAINS)

category: Utilities.BRAINS

description: Resample an image into ACPC alignement ACPCDetect

Inputs:

[Mandatory]

[Optional]
BackgroundFillValue: (a unicode string)
        Fill the background of image with specified short int value. Enter
        number or use BIGNEG for a large negative number.
        flag: --BackgroundFillValue %s
OutputresampleMSP: (a boolean or a file name)
        , The image to be output.,
        flag: --OutputresampleMSP %s
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputVolume: (an existing file name)
        , The Image to be resampled,
        flag: --inputVolume %s
interpolationMode: ('NearestNeighbor' or 'Linear' or
         'ResampleInPlace' or 'BSpline' or 'WindowedSinc' or 'Hamming' or
         'Cosine' or 'Welch' or 'Lanczos' or 'Blackman')
        Type of interpolation to be used when applying transform to moving
        volume. Options are Linear, ResampleInPlace, NearestNeighbor,
        BSpline, or WindowedSinc
        flag: --interpolationMode %s
mspQualityLevel: (an integer (int or long))
        , Flag cotrols how agressive the MSP is estimated. 0=quick estimate
        (9 seconds), 1=normal estimate (11 seconds), 2=great estimate (22
        seconds), 3=best estimate (58 seconds).,
        flag: --mspQualityLevel %d
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
rescaleIntensities: (a boolean)
        , Flag to turn on rescaling image intensities on input.,
        flag: --rescaleIntensities
rescaleIntensitiesOutputRange: (a list of items which are an integer
         (int or long))
        , This pair of integers gives the lower and upper bounds on the
        signal portion of the output image. Out-of-field voxels are taken
        from BackgroundFillValue.,
        flag: --rescaleIntensitiesOutputRange %s
resultsDir: (a boolean or a directory name)
        , The directory for the results to be written.,
        flag: --resultsDir %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored
trimRescaledIntensities: (a float)
        , Turn on clipping the rescaled image one-tailed on input. Units of
        standard deviations above the mean. Very large values are very
        permissive. Non-positive value turns clipping off. Defaults to
        removing 0.00001 of a normal tail above the mean.,
        flag: --trimRescaledIntensities %f
verbose: (a boolean)
        , Show more verbose output,
        flag: --verbose
writedebuggingImagesLevel: (an integer (int or long))
        , This flag controls if debugging images are produced. By default
        value of 0 is no images. Anything greater than zero will be
        increasing level of debugging images.,
        flag: --writedebuggingImagesLevel %d

Outputs:

OutputresampleMSP: (an existing file name)
        , The image to be output.,
resultsDir: (an existing directory name)
        , The directory for the results to be written.,

BRAINSClipInferior

Link to code

Wraps command ** BRAINSClipInferior **

title: Clip Inferior of Center of Brain (BRAINS)

category: Utilities.BRAINS

description: This program will read the inputVolume as a short int image, write the BackgroundFillValue everywhere inferior to the lower bound, and write the resulting clipped short int image in the outputVolume.

version: 1.0

Inputs:

[Mandatory]

[Optional]
BackgroundFillValue: (a unicode string)
        Fill the background of image with specified short int value. Enter
        number or use BIGNEG for a large negative number.
        flag: --BackgroundFillValue %s
acLowerBound: (a float)
        , When the input image to the output image, replace the image with
        the BackgroundFillValue everywhere below the plane This Far in
        physical units (millimeters) below (inferior to) the AC point
        (assumed to be the voxel field middle.) The oversize default was
        chosen to have no effect. Based on visualizing a thousand masks in
        the IPIG study, we recommend a limit no smaller than 80.0 mm.,
        flag: --acLowerBound %f
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputVolume: (an existing file name)
        Input image to make a clipped short int copy from.
        flag: --inputVolume %s
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
outputVolume: (a boolean or a file name)
        Output image, a short int copy of the upper portion of the input
        image, filled with BackgroundFillValue.
        flag: --outputVolume %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputVolume: (an existing file name)
        Output image, a short int copy of the upper portion of the input
        image, filled with BackgroundFillValue.

BRAINSConstellationModeler

Link to code

Wraps command ** BRAINSConstellationModeler **

title: Generate Landmarks Model (BRAINS)

category: Utilities.BRAINS

description: Train up a model for BRAINSConstellationDetector

Inputs:

[Mandatory]

[Optional]
BackgroundFillValue: (a unicode string)
        Fill the background of image with specified short int value. Enter
        number or use BIGNEG for a large negative number.
        flag: --BackgroundFillValue %s
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputTrainingList: (an existing file name)
        , Setup file, giving all parameters for training up a template model
        for each landmark.,
        flag: --inputTrainingList %s
mspQualityLevel: (an integer (int or long))
        , Flag cotrols how agressive the MSP is estimated. 0=quick estimate
        (9 seconds), 1=normal estimate (11 seconds), 2=great estimate (22
        seconds), 3=best estimate (58 seconds).,
        flag: --mspQualityLevel %d
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
optimizedLandmarksFilenameExtender: (a unicode string)
        , If the trainingList is (indexFullPathName) and contains landmark
        data filenames [path]/[filename].fcsv , make the optimized landmarks
        filenames out of [path]/[filename](thisExtender) and the optimized
        version of the input trainingList out of
        (indexFullPathName)(thisExtender) , when you rewrite all the
        landmarks according to the saveOptimizedLandmarks flag.,
        flag: --optimizedLandmarksFilenameExtender %s
outputModel: (a boolean or a file name)
        , The full filename of the output model file.,
        flag: --outputModel %s
rescaleIntensities: (a boolean)
        , Flag to turn on rescaling image intensities on input.,
        flag: --rescaleIntensities
rescaleIntensitiesOutputRange: (a list of items which are an integer
         (int or long))
        , This pair of integers gives the lower and upper bounds on the
        signal portion of the output image. Out-of-field voxels are taken
        from BackgroundFillValue.,
        flag: --rescaleIntensitiesOutputRange %s
resultsDir: (a boolean or a directory name)
        , The directory for the results to be written.,
        flag: --resultsDir %s
saveOptimizedLandmarks: (a boolean)
        , Flag to make a new subject-specific landmark definition file in
        the same format produced by Slicer3 with the optimized landmark (the
        detected RP, AC, and PC) in it. Useful to tighten the variances in
        the ConstellationModeler.,
        flag: --saveOptimizedLandmarks
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored
trimRescaledIntensities: (a float)
        , Turn on clipping the rescaled image one-tailed on input. Units of
        standard deviations above the mean. Very large values are very
        permissive. Non-positive value turns clipping off. Defaults to
        removing 0.00001 of a normal tail above the mean.,
        flag: --trimRescaledIntensities %f
verbose: (a boolean)
        , Show more verbose output,
        flag: --verbose
writedebuggingImagesLevel: (an integer (int or long))
        , This flag controls if debugging images are produced. By default
        value of 0 is no images. Anything greater than zero will be
        increasing level of debugging images.,
        flag: --writedebuggingImagesLevel %d

Outputs:

outputModel: (an existing file name)
        , The full filename of the output model file.,
resultsDir: (an existing directory name)
        , The directory for the results to be written.,

BRAINSEyeDetector

Link to code

Wraps command ** BRAINSEyeDetector **

title: Eye Detector (BRAINS)

category: Utilities.BRAINS

version: 1.0

documentation-url: http://www.nitrc.org/projects/brainscdetector/

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
debugDir: (a unicode string)
        A place for debug information
        flag: --debugDir %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputVolume: (an existing file name)
        The input volume
        flag: --inputVolume %s
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
outputVolume: (a boolean or a file name)
        The output volume
        flag: --outputVolume %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputVolume: (an existing file name)
        The output volume

BRAINSInitializedControlPoints

Link to code

Wraps command ** BRAINSInitializedControlPoints **

title: Initialized Control Points (BRAINS)

category: Utilities.BRAINS

description: Outputs bspline control points as landmarks

version: 0.1.0.$Revision: 916 $(alpha)

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

contributor: Mark Scully

acknowledgements: This work is part of the National Alliance for Medical Image Computing (NAMIC), funded by the National Institutes of Health through the NIH Roadmap for Medical Research, Grant U54 EB005149. Additional support for Mark Scully and Hans Johnson at the University of Iowa.

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputVolume: (an existing file name)
        Input Volume
        flag: --inputVolume %s
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
outputLandmarksFile: (a unicode string)
        Output filename
        flag: --outputLandmarksFile %s
outputVolume: (a boolean or a file name)
        Output Volume
        flag: --outputVolume %s
permuteOrder: (a list of items which are an integer (int or long))
        The permutation order for the images. The default is 0,1,2 (i.e. no
        permutation)
        flag: --permuteOrder %s
splineGridSize: (a list of items which are an integer (int or long))
        The number of subdivisions of the BSpline Grid to be centered on the
        image space. Each dimension must have at least 3 subdivisions for
        the BSpline to be correctly computed.
        flag: --splineGridSize %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputVolume: (an existing file name)
        Output Volume

BRAINSLandmarkInitializer

Link to code

Wraps command ** BRAINSLandmarkInitializer **

title: BRAINSLandmarkInitializer

category: Utilities.BRAINS

description: Create transformation file (*mat) from a pair of landmarks (*fcsv) files.

version: 1.0

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

contributor: Eunyoung Regina Kim

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputFixedLandmarkFilename: (an existing file name)
        input fixed landmark. *.fcsv
        flag: --inputFixedLandmarkFilename %s
inputMovingLandmarkFilename: (an existing file name)
        input moving landmark. *.fcsv
        flag: --inputMovingLandmarkFilename %s
inputWeightFilename: (an existing file name)
        Input weight file name for landmarks. Higher weighted landmark will
        be considered more heavily. Weights are propotional, that is the
        magnitude of weights will be normalized by its minimum and maximum
        value.
        flag: --inputWeightFilename %s
outputTransformFilename: (a boolean or a file name)
        output transform file name (ex: ./outputTransform.mat)
        flag: --outputTransformFilename %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputTransformFilename: (an existing file name)
        output transform file name (ex: ./outputTransform.mat)

BRAINSLinearModelerEPCA

Link to code

Wraps command ** BRAINSLinearModelerEPCA **

title: Landmark Linear Modeler (BRAINS)

category: Utilities.BRAINS

description: Training linear model using EPCA. Implementation based on my MS thesis, “A METHOD FOR AUTOMATED LANDMARK CONSTELLATION DETECTION USING EVOLUTIONARY PRINCIPAL COMPONENTS AND STATISTICAL SHAPE MODELS”

version: 1.0

documentation-url: http://www.nitrc.org/projects/brainscdetector/

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputTrainingList: (an existing file name)
        Input Training Landmark List Filename,
        flag: --inputTrainingList %s
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

None

BRAINSLmkTransform

Link to code

Wraps command ** BRAINSLmkTransform **

title: Landmark Transform (BRAINS)

category: Utilities.BRAINS

description: This utility program estimates the affine transform to align the fixed landmarks to the moving landmarks, and then generate the resampled moving image to the same physical space as that of the reference image.

version: 1.0

documentation-url: http://www.nitrc.org/projects/brainscdetector/

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputFixedLandmarks: (an existing file name)
        Input Fixed Landmark list file in fcsv,
        flag: --inputFixedLandmarks %s
inputMovingLandmarks: (an existing file name)
        Input Moving Landmark list file in fcsv,
        flag: --inputMovingLandmarks %s
inputMovingVolume: (an existing file name)
        The filename of input moving volume
        flag: --inputMovingVolume %s
inputReferenceVolume: (an existing file name)
        The filename of the reference volume
        flag: --inputReferenceVolume %s
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
outputAffineTransform: (a boolean or a file name)
        The filename for the estimated affine transform,
        flag: --outputAffineTransform %s
outputResampledVolume: (a boolean or a file name)
        The filename of the output resampled volume
        flag: --outputResampledVolume %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputAffineTransform: (an existing file name)
        The filename for the estimated affine transform,
outputResampledVolume: (an existing file name)
        The filename of the output resampled volume

BRAINSMush

Link to code

Wraps command ** BRAINSMush **

title: Brain Extraction from T1/T2 image (BRAINS)

category: Utilities.BRAINS

description: This program: 1) generates a weighted mixture image optimizing the mean and variance and 2) produces a mask of the brain volume

version: 0.1.0.$Revision: 1.4 $(alpha)

documentation-url: http:://mri.radiology.uiowa.edu

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

contributor: This tool is a modification by Steven Dunn of a program developed by Greg Harris and Ron Pierson.

acknowledgements: This work was developed by the University of Iowa Departments of Radiology and Psychiatry. This software was supported in part of NIH/NINDS award NS050568.

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
boundingBoxSize: (a list of items which are an integer (int or long))
        Size of the cubic bounding box mask used when no brain mask is
        present
        flag: --boundingBoxSize %s
boundingBoxStart: (a list of items which are an integer (int or
         long))
        XYZ point-coordinate for the start of the cubic bounding box mask
        used when no brain mask is present
        flag: --boundingBoxStart %s
desiredMean: (a float)
        Desired mean within the mask for weighted sum of both images.
        flag: --desiredMean %f
desiredVariance: (a float)
        Desired variance within the mask for weighted sum of both images.
        flag: --desiredVariance %f
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputFirstVolume: (an existing file name)
        Input image (1) for mixture optimization
        flag: --inputFirstVolume %s
inputMaskVolume: (an existing file name)
        Input label image for mixture optimization
        flag: --inputMaskVolume %s
inputSecondVolume: (an existing file name)
        Input image (2) for mixture optimization
        flag: --inputSecondVolume %s
lowerThresholdFactor: (a float)
        Lower threshold factor for defining the brain mask
        flag: --lowerThresholdFactor %f
lowerThresholdFactorPre: (a float)
        Lower threshold factor for finding an initial brain mask
        flag: --lowerThresholdFactorPre %f
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
outputMask: (a boolean or a file name)
        The brain volume mask generated from the MUSH image
        flag: --outputMask %s
outputVolume: (a boolean or a file name)
        The MUSH image produced from the T1 and T2 weighted images
        flag: --outputVolume %s
outputWeightsFile: (a boolean or a file name)
        Output Weights File
        flag: --outputWeightsFile %s
seed: (a list of items which are an integer (int or long))
        Seed Point for Brain Region Filling
        flag: --seed %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored
upperThresholdFactor: (a float)
        Upper threshold factor for defining the brain mask
        flag: --upperThresholdFactor %f
upperThresholdFactorPre: (a float)
        Upper threshold factor for finding an initial brain mask
        flag: --upperThresholdFactorPre %f

Outputs:

outputMask: (an existing file name)
        The brain volume mask generated from the MUSH image
outputVolume: (an existing file name)
        The MUSH image produced from the T1 and T2 weighted images
outputWeightsFile: (an existing file name)
        Output Weights File

BRAINSSnapShotWriter

Link to code

Wraps command ** BRAINSSnapShotWriter **

title: BRAINSSnapShotWriter

category: Utilities.BRAINS

description: Create 2D snapshot of input images. Mask images are color-coded

version: 1.0

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

contributor: Eunyoung Regina Kim

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputBinaryVolumes: (a list of items which are an existing file name)
        Input mask (binary) volume list to be extracted as 2D image.
        Multiple input is possible.
        flag: --inputBinaryVolumes %s...
inputPlaneDirection: (a list of items which are an integer (int or
         long))
        Plane to display. In general, 0=saggital, 1=coronal, and 2=axial
        plane.
        flag: --inputPlaneDirection %s
inputSliceToExtractInIndex: (a list of items which are an integer
         (int or long))
        2D slice number of input images. For size of 256*256*256 image, 128
        is usually used.
        flag: --inputSliceToExtractInIndex %s
inputSliceToExtractInPercent: (a list of items which are an integer
         (int or long))
        2D slice number of input images. Percentage input from 0%-100%. (ex.
        --inputSliceToExtractInPercent 50,50,50
        flag: --inputSliceToExtractInPercent %s
inputSliceToExtractInPhysicalPoint: (a list of items which are a
         float)
        2D slice number of input images. For autoWorkUp output, which AC-PC
        aligned, 0,0,0 will be the center.
        flag: --inputSliceToExtractInPhysicalPoint %s
inputVolumes: (a list of items which are an existing file name)
        Input image volume list to be extracted as 2D image. Multiple input
        is possible. At least one input is required.
        flag: --inputVolumes %s...
outputFilename: (a boolean or a file name)
        2D file name of input images. Required.
        flag: --outputFilename %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputFilename: (an existing file name)
        2D file name of input images. Required.

BRAINSTransformConvert

Link to code

Wraps command ** BRAINSTransformConvert **

title: BRAINS Transform Convert

category: Utilities.BRAINS

description: Convert ITK transforms to higher order transforms

version: 1.0

documentation-url: A utility to convert between transform file formats.

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

contributor: Hans J. Johnson,Kent Williams, Ali Ghayoor

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
displacementVolume: (a boolean or a file name)
        flag: --displacementVolume %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputTransform: (an existing file name)
        flag: --inputTransform %s
outputPrecisionType: ('double' or 'float')
        Precision type of the output transform. It can be either single
        precision or double precision
        flag: --outputPrecisionType %s
outputTransform: (a boolean or a file name)
        flag: --outputTransform %s
outputTransformType: ('Affine' or 'VersorRigid' or 'ScaleVersor' or
         'ScaleSkewVersor' or 'DisplacementField' or 'Same')
        The target transformation type. Must be conversion-compatible with
        the input transform type
        flag: --outputTransformType %s
referenceVolume: (an existing file name)
        flag: --referenceVolume %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

displacementVolume: (an existing file name)
outputTransform: (an existing file name)

BRAINSTrimForegroundInDirection

Link to code

Wraps command ** BRAINSTrimForegroundInDirection **

title: Trim Foreground In Direction (BRAINS)

category: Utilities.BRAINS

description: This program will trim off the neck and also air-filling noise from the inputImage.

version: 0.1

documentation-url: http://www.nitrc.org/projects/art/

Inputs:

[Mandatory]

[Optional]
BackgroundFillValue: (a unicode string)
        Fill the background of image with specified short int value. Enter
        number or use BIGNEG for a large negative number.
        flag: --BackgroundFillValue %s
args: (a unicode string)
        Additional parameters to the command
        flag: %s
closingSize: (an integer (int or long))
        , This is a parameter to FindLargestForegroundFilledMask,
        flag: --closingSize %d
directionCode: (an integer (int or long))
        , This flag chooses which dimension to compare. The sign lets you
        flip direction.,
        flag: --directionCode %d
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
headSizeLimit: (a float)
        , Use this to vary from the command line our search for how much
        upper tissue is head for the center-of-mass calculation. Units are
        CCs, not cubic millimeters.,
        flag: --headSizeLimit %f
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputVolume: (an existing file name)
        Input image to trim off the neck (and also air-filling noise.)
        flag: --inputVolume %s
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
otsuPercentileThreshold: (a float)
        , This is a parameter to FindLargestForegroundFilledMask, which is
        employed to trim off air-filling noise.,
        flag: --otsuPercentileThreshold %f
outputVolume: (a boolean or a file name)
        Output image with neck and air-filling noise trimmed isotropic image
        with AC at center of image.
        flag: --outputVolume %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputVolume: (an existing file name)
        Output image with neck and air-filling noise trimmed isotropic image
        with AC at center of image.

CleanUpOverlapLabels

Link to code

Wraps command ** CleanUpOverlapLabels **

title: Clean Up Overla Labels

category: Utilities.BRAINS

description: Take a series of input binary images and clean up for those overlapped area. Binary volumes given first always wins out

version: 0.1.0

contributor: Eun Young Kim

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputBinaryVolumes: (a list of items which are an existing file name)
        The list of binary images to be checked and cleaned up. Order is
        important. Binary volume given first always wins out.
        flag: --inputBinaryVolumes %s...
outputBinaryVolumes: (a boolean or a list of items which are a file
         name)
        The output label map images, with integer values in it. Each label
        value specified in the inputLabels is combined into this output
        label map volume
        flag: --outputBinaryVolumes %s...
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputBinaryVolumes: (a list of items which are an existing file
         name)
        The output label map images, with integer values in it. Each label
        value specified in the inputLabels is combined into this output
        label map volume

FindCenterOfBrain

Link to code

Wraps command ** FindCenterOfBrain **

title: Center Of Brain (BRAINS)

category: Utilities.BRAINS

description: Finds the center point of a brain

version: 3.0.0

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

contributor: Hans J. Johnson, hans-johnson -at- uiowa.edu, http://wwww.psychiatry.uiowa.edu

acknowledgements: Hans Johnson(1,3,4); Kent Williams(1); (1=University of Iowa Department of Psychiatry, 3=University of Iowa Department of Biomedical Engineering, 4=University of Iowa Department of Electrical and Computer Engineering

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
axis: (an integer (int or long))
        flag: --axis %d
backgroundValue: (an integer (int or long))
        flag: --backgroundValue %d
clippedImageMask: (a boolean or a file name)
        flag: --clippedImageMask %s
closingSize: (an integer (int or long))
        flag: --closingSize %d
debugAfterGridComputationsForegroundImage: (a boolean or a file name)
        flag: --debugAfterGridComputationsForegroundImage %s
debugClippedImageMask: (a boolean or a file name)
        flag: --debugClippedImageMask %s
debugDistanceImage: (a boolean or a file name)
        flag: --debugDistanceImage %s
debugGridImage: (a boolean or a file name)
        flag: --debugGridImage %s
debugTrimmedImage: (a boolean or a file name)
        flag: --debugTrimmedImage %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
generateDebugImages: (a boolean)
        flag: --generateDebugImages
headSizeEstimate: (a float)
        flag: --headSizeEstimate %f
headSizeLimit: (a float)
        flag: --headSizeLimit %f
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
imageMask: (an existing file name)
        flag: --imageMask %s
inputVolume: (an existing file name)
        The image in which to find the center.
        flag: --inputVolume %s
maximize: (a boolean)
        flag: --maximize
otsuPercentileThreshold: (a float)
        flag: --otsuPercentileThreshold %f
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

clippedImageMask: (an existing file name)
debugAfterGridComputationsForegroundImage: (an existing file name)
debugClippedImageMask: (an existing file name)
debugDistanceImage: (an existing file name)
debugGridImage: (an existing file name)
debugTrimmedImage: (an existing file name)

GenerateLabelMapFromProbabilityMap

Link to code

Wraps command ** GenerateLabelMapFromProbabilityMap **

title: Label Map from Probability Images

category: Utilities.BRAINS

description: Given a list of probability maps for labels, create a discrete label map where only the highest probability region is used for the labeling.

version: 0.1

contributor: University of Iowa Department of Psychiatry, http:://www.psychiatry.uiowa.edu

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputVolumes: (a list of items which are an existing file name)
        The Input probaiblity images to be computed for lable maps
        flag: --inputVolumes %s...
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
outputLabelVolume: (a boolean or a file name)
        The Input binary image for region of interest
        flag: --outputLabelVolume %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputLabelVolume: (an existing file name)
        The Input binary image for region of interest

ImageRegionPlotter

Link to code

Wraps command ** ImageRegionPlotter **

title: Write Out Image Intensities

category: Utilities.BRAINS

description: For Analysis

version: 0.1

contributor: University of Iowa Department of Psychiatry, http:://www.psychiatry.uiowa.edu

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputBinaryROIVolume: (an existing file name)
        The Input binary image for region of interest
        flag: --inputBinaryROIVolume %s
inputLabelVolume: (an existing file name)
        The Label Image
        flag: --inputLabelVolume %s
inputVolume1: (an existing file name)
        The Input image to be computed for statistics
        flag: --inputVolume1 %s
inputVolume2: (an existing file name)
        The Input image to be computed for statistics
        flag: --inputVolume2 %s
numberOfHistogramBins: (an integer (int or long))
         the number of histogram levels
        flag: --numberOfHistogramBins %d
outputJointHistogramData: (a unicode string)
         output data file name
        flag: --outputJointHistogramData %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored
useIntensityForHistogram: (a boolean)
         Create Intensity Joint Histogram instead of Quantile Joint
        Histogram
        flag: --useIntensityForHistogram
useROIAUTO: (a boolean)
         Use ROIAUTO to compute region of interest. This cannot be used with
        inputLabelVolume
        flag: --useROIAUTO
verbose: (a boolean)
         print debugging information,
        flag: --verbose

Outputs:

None

JointHistogram

Link to code

Wraps command ** JointHistogram **

title: Write Out Image Intensities

category: Utilities.BRAINS

description: For Analysis

version: 0.1

contributor: University of Iowa Department of Psychiatry, http:://www.psychiatry.uiowa.edu

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputMaskVolumeInXAxis: (an existing file name)
        Input mask volume for inputVolumeInXAxis. Histogram will be computed
        just for the masked region
        flag: --inputMaskVolumeInXAxis %s
inputMaskVolumeInYAxis: (an existing file name)
        Input mask volume for inputVolumeInYAxis. Histogram will be computed
        just for the masked region
        flag: --inputMaskVolumeInYAxis %s
inputVolumeInXAxis: (an existing file name)
        The Input image to be computed for statistics
        flag: --inputVolumeInXAxis %s
inputVolumeInYAxis: (an existing file name)
        The Input image to be computed for statistics
        flag: --inputVolumeInYAxis %s
outputJointHistogramImage: (a unicode string)
         output joint histogram image file name. Histogram is usually 2D
        image.
        flag: --outputJointHistogramImage %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored
verbose: (a boolean)
         print debugging information,
        flag: --verbose

Outputs:

None

ShuffleVectorsModule

Link to code

Wraps command ** ShuffleVectorsModule **

title: ShuffleVectors

category: Utilities.BRAINS

description: Automatic Segmentation using neural networks

version: 1.0

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

contributor: Hans Johnson

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputVectorFileBaseName: (an existing file name)
        input vector file name prefix. Usually end with .txt and header file
        has prost fix of .txt.hdr
        flag: --inputVectorFileBaseName %s
outputVectorFileBaseName: (a boolean or a file name)
        output vector file name prefix. Usually end with .txt and header
        file has prost fix of .txt.hdr
        flag: --outputVectorFileBaseName %s
resampleProportion: (a float)
        downsample size of 1 will be the same size as the input images,
        downsample size of 3 will throw 2/3 the vectors away.
        flag: --resampleProportion %f
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputVectorFileBaseName: (an existing file name)
        output vector file name prefix. Usually end with .txt and header
        file has prost fix of .txt.hdr

fcsv_to_hdf5

Link to code

Wraps command ** fcsv_to_hdf5 **

title: fcsv_to_hdf5 (BRAINS)

category: Utilities.BRAINS

description: Convert a collection of fcsv files to a HDF5 format file

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
landmarkGlobPattern: (a unicode string)
        Glob pattern to select fcsv files
        flag: --landmarkGlobPattern %s
landmarkTypesList: (an existing file name)
        , file containing list of landmark types,
        flag: --landmarkTypesList %s
landmarksInformationFile: (a boolean or a file name)
        , name of HDF5 file to write matrices into,
        flag: --landmarksInformationFile %s
modelFile: (a boolean or a file name)
        , name of HDF5 file containing BRAINSConstellationDetector Model
        file (LLSMatrices, LLSMeans and LLSSearchRadii),
        flag: --modelFile %s
numberOfThreads: (an integer (int or long))
        Explicitly specify the maximum number of threads to use.
        flag: --numberOfThreads %d
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored
versionID: (a unicode string)
        , Current version ID. It should be match with the version of BCD
        that will be using the output model file,
        flag: --versionID %s

Outputs:

landmarksInformationFile: (an existing file name)
        , name of HDF5 file to write matrices into,
modelFile: (an existing file name)
        , name of HDF5 file containing BRAINSConstellationDetector Model
        file (LLSMatrices, LLSMeans and LLSSearchRadii),

insertMidACPCpoint

Link to code

Wraps command ** insertMidACPCpoint **

title: MidACPC Landmark Insertion

category: Utilities.BRAINS

description: This program gets a landmark fcsv file and adds a new landmark as the midpoint between AC and PC points to the output landmark fcsv file

contributor: Ali Ghayoor

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputLandmarkFile: (an existing file name)
        Input landmark file (.fcsv)
        flag: --inputLandmarkFile %s
outputLandmarkFile: (a boolean or a file name)
        Output landmark file (.fcsv)
        flag: --outputLandmarkFile %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputLandmarkFile: (an existing file name)
        Output landmark file (.fcsv)

landmarksConstellationAligner

Link to code

Wraps command ** landmarksConstellationAligner **

title: MidACPC Landmark Insertion

category: Utilities.BRAINS

description: This program converts the original landmark files to the acpc-aligned landmark files

contributor: Ali Ghayoor

Inputs:

[Mandatory]

[Optional]
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputLandmarksPaired: (an existing file name)
        Input landmark file (.fcsv)
        flag: --inputLandmarksPaired %s
outputLandmarksPaired: (a boolean or a file name)
        Output landmark file (.fcsv)
        flag: --outputLandmarksPaired %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputLandmarksPaired: (an existing file name)
        Output landmark file (.fcsv)

landmarksConstellationWeights

Link to code

Wraps command ** landmarksConstellationWeights **

title: Generate Landmarks Weights (BRAINS)

category: Utilities.BRAINS

description: Train up a list of Weights for the Landmarks in BRAINSConstellationDetector

Inputs:

[Mandatory]

[Optional]
LLSModel: (an existing file name)
        Linear least squares model filename in HD5 format
        flag: --LLSModel %s
args: (a unicode string)
        Additional parameters to the command
        flag: %s
environ: (a dictionary with keys which are a newbytes or None or a
         newstr or None and with values which are a newbytes or None or a
         newstr or None, nipype default value: {})
        Environment variables
ignore_exception: (a boolean, nipype default value: False)
        Print an error message instead of throwing an exception in case the
        interface fails to run
inputTemplateModel: (an existing file name)
        User-specified template model.,
        flag: --inputTemplateModel %s
inputTrainingList: (an existing file name)
        , Setup file, giving all parameters for training up a Weight list
        for landmark.,
        flag: --inputTrainingList %s
outputWeightsList: (a boolean or a file name)
        , The filename of a csv file which is a list of landmarks and their
        corresponding weights.,
        flag: --outputWeightsList %s
terminal_output: (u'stream' or u'allatonce' or u'file' or u'none')
        Control terminal output: `stream` - displays to terminal immediately
        (default), `allatonce` - waits till command is finished to display
        output, `file` - writes output to file, `none` - output is ignored

Outputs:

outputWeightsList: (an existing file name)
        , The filename of a csv file which is a list of landmarks and their
        corresponding weights.,