Difference between revisions of "BRAINSMush"

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The basic assumption for this algorithm is that the T1 and T2 images have been co-registered and have a minimal bias field.
 
The basic assumption for this algorithm is that the T1 and T2 images have been co-registered and have a minimal bias field.
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'''Algorithm'''
 
'''Algorithm'''
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* University of Iowa: Steven Dunn, Ronald Pierson, Greg Harris, Hans Johnson, Vincent Magnotta
 
* University of Iowa: Steven Dunn, Ronald Pierson, Greg Harris, Hans Johnson, Vincent Magnotta
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'''Figures:'''
 
'''Figures:'''
  
<gallery Caption="BRAINSTracer" widths="300px" heights="300px" perrow="2">
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<gallery Caption="BRAINSMush" widths="300px" heights="300px" perrow="2">
 
Image:BRAINSTracer1.png|BRAINS Tracer showing vtkContourWidget and telegraphing of ROIs
 
Image:BRAINSTracer1.png|BRAINS Tracer showing vtkContourWidget and telegraphing of ROIs
 
Image:BRAINSTracer2.png|BRAINS Tracer with the splash screen
 
Image:BRAINSTracer2.png|BRAINS Tracer with the splash screen
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*[http://www.psychiatry.uiowa.edu University of Iowa Department of Psychiatry]
 
*[http://www.psychiatry.uiowa.edu University of Iowa Department of Psychiatry]
 
*[http://mri.radiology.uiowa.edu University of Iowa MRI Center]
 
*[http://mri.radiology.uiowa.edu University of Iowa MRI Center]
*[http://www.themindinstitute.org The MIND Institute]
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'''Usage:'''
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'''Papers:'''
 
'''Papers:'''

Revision as of 15:05, 10 December 2008

Home < BRAINSMush

This is a tool to generate brain a volume mask from an input T1 and T2-weighted images. The resulting volume mask omits dura, skull, eyes, etc., but includes surface CSF. This application has recently been modified allowing the algorithm to run using only the T1 and T2-weighted images. In this application the following equation is optimized for the values a and b to minimize the variance in the resulting images across voxels within the brain.


M=a*T1+b*T2


The basic assumption for this algorithm is that the T1 and T2 images have been co-registered and have a minimal bias field.


Algorithm

  1. Use initial guess to brain using a conservative box placed about the center of the image
  2. Minimize the above equation for a and b constants
  3. Threshold the image
  4. Erode the thresholded mask
  5. Keep largest connected region
  6. Dilate mask
  7. Use resulting mask and repeat steps 2-6 using resulting mask


Progress:

  • Standalone application now has been tested on several datasets.
  • Source code has been posted on NITRC
  • Integrated with BRAINS Software


Key Investigators:

  • University of Iowa: Steven Dunn, Ronald Pierson, Greg Harris, Hans Johnson, Vincent Magnotta


Figures:


Links:


Usage:


Papers: