Difference between revisions of "Documentation/Nightly/Modules/LSSegmenter"

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This module offer a voxel-intensity lesion segmentation method based on logistic contrast enhancement and threshold level. At moment, this method was studied on hyperintense T2-FLAIR lesion segmentation in Multiple Sclerosis lesion segmentation.
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This module offers a hybrid voxel-intensity lesion segmentation method based on logistic classification and local contrast enhancement algorithm for the hyperintense Multiple Sclerosis lesion segmentation task.  
  
 
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{{documentation/{{documentation/version}}/module-section|Use Cases}}
 
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* Use Case 1: Multiple Sclerosis (MS) hyperintense lesions segmentation
 
* Use Case 1: Multiple Sclerosis (MS) hyperintense lesions segmentation
**Hyperintense Multiple Sclerosis lesions, mainly in T2-FLAIR images, have a easy application of this segmentations procedure
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**Hyperintense MS lesions, mainly in T2-FLAIR images, have a easy application of this segmentations procedure
  
 
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Revision as of 18:50, 16 February 2017

Home < Documentation < Nightly < Modules < LSSegmenter


For the latest Slicer documentation, visit the read-the-docs.


Introduction and Acknowledgements

Extension: LesionSpotlight
Webpage: http://dcm.ffclrp.usp.br/csim/
Author: Antonio Carlos da S. Senra Filho, CSIM Laboratory (University of Sao Paulo, Department of Computing and Mathematics)
Contact: Antonio Carlos da S. Senra Filho, <email>acsenrafilho@usp.br</email>

CSIM Laboratory  
University of Sao Paulo  
CAPES Brazil  

Module Description

LSSegmenter-icon.png

This module offers a hybrid voxel-intensity lesion segmentation method based on logistic classification and local contrast enhancement algorithm for the hyperintense Multiple Sclerosis lesion segmentation task.

Use Cases

  • Use Case 1: Multiple Sclerosis (MS) hyperintense lesions segmentation
    • Hyperintense MS lesions, mainly in T2-FLAIR images, have a easy application of this segmentations procedure


Panels and their use

User Interface

IO:

  • T1 Volume
  • T2-FLAIR Volume
  • Lesion Label
    • Output a global lesion mask
  • Is brain extracted?
    • Is the input data (T1 and T2-FLAIR) already brain extracted?
  • Apply noise attenuation step
  • Apply bias field correction step

Noise Attenuation Parameters:

  • Conductance
    • The conductance regulates the diffusion intensity in the neighbourhood area. Choose a higher conductance if the input image has strong noise seem in the whole image space.
  • Number Of Iterations
    • The number of iterations regulates the numerical simulation of the anomalous process over the image. This parameters is also related with the de-noising intensity, however it is more sensible to the noise intensity. Choose the higher number of iterations if the image presents high intensity noise which is not well treated by the conductance parameter
  • Q Value
    • The anomalous parameter (or q value) is the generalization parameters responsible to give the anomalous process approach on the diffusion equation. See the reference paper[1] to choose the appropriate q value (at moment, only tested in MRI T1 and T2 weighted images)

Registration Parameters: (based on BRAINSFit module)

  • Percentage Of Samples
    • Percentage of voxel used in registration
  • Initiation Method
    • Initialization method used for the MNI152 registration
  • Interpolation
    • Choose the interpolation method used to register the standard space to input image space. Options: Linear, NearestNeighbor, B-Spline

Segmentation Parameters:

  • Absolute Error Threshold
    • Define the absolute error threshold for gray matter statistics. This measure evaluated the similarity between the MNI152 template and the T2-FLAIR gray matter fluctuation estimative. A higher error gives a higher variability in the final lesion segmentation
  • Gamma
    • Define the outlier detection based on units of standard deviation in the T2-FLAIR gray matter voxel intensity distribution
  • White Matter Matching
    • Set the local neighborhood searching for label refinement step. This metric defines the percentage of white matter tissue that surrounds the hyperintense lesions. Higher values defines a conservative segmentation
  • Minimum Lesion Size
    • Set the minimum lesion size adopted as a true lesion in the final lesion map. Units given in number of voxels
  • Gray Matter Mask Value
    • Set the mask value that represents the gray matter. Default is defined based on the Basic Brain Tissues module output
  • White Matter Mask Value
    • Set the mask value that represents the white matter. Default is defined based on the Basic Brain Tissues module output


Similar Modules

N/A

References

  • paper

Information for Developers