Difference between revisions of "Meningioma growth modeling with TumorSim"

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{|
 
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|All the following experiments are based on the "thin dura" input labels, and the tumor seed image shown on the right. The tumor label is shown in green color.
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|All the following experiments are based on the "thin dura" input labels, and the tumor seed image shown on the right. The tumor label is shown in green color. Note that the tumor is touching the gray matter label.
 
|<gallery perrow="3" heights="300px" widths="400px">
 
|<gallery perrow="3" heights="300px" widths="400px">
 
Image:tumor_seed3.jpg
 
Image:tumor_seed3.jpg
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The following screenshots capture the same slice of the following images in order: (1) image containing the tumor probabilities, and (2) the simulated Gad enhanced image.
+
Also, all of the experiments use the following configuration file, where '''POISSON''' value is substituted with 0.5, 0.4, and 0.2, with the simulation results shown below.
 +
 
 +
<pre>
 +
<?xml version="1.0"?>
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<tumor-simulation-parameters>
 +
 
 +
<dataset-name>SimMeningioma001</dataset-name>
 +
 
 +
<input-directory>../TumorSimInputWithThinDura</input-directory>
 +
<output-directory>./0.05</output-directory>
 +
 
 +
<brain-young-modulus>694</brain-young-modulus>
 +
<brain-poisson-ratio>POISSON</brain-poisson-ratio>
 +
 
 +
<deformation-seed>../SlicerScenes/NewSeed3-1.nrrd</deformation-seed>
 +
<deformation-iterations>10</deformation-iterations>
 +
<deformation-initial-pressure>3.0</deformation-initial-pressure>
 +
<deformation-kappa>1e+06</deformation-kappa>
 +
<deformation-damping>1</deformation-damping>
 +
 
 +
<deformation-solver-iterations>8</deformation-solver-iterations>
 +
<infiltration-solver-iterations>2</infiltration-solver-iterations>
 +
 
 +
<infiltration-iterations>2</infiltration-iterations>
 +
<infiltration-time-step>1e-6</infiltration-time-step>
 +
<infiltration-early-time>0.5e-6</infiltration-early-time>
 +
<infiltration-body-force-iterations>2</infiltration-body-force-iterations>
 +
<infiltration-body-force-coefficient>10.0</infiltration-body-force-coefficient>
 +
 
 +
<contrast-enhancement-type>uniform</contrast-enhancement-type>
 +
 
 +
<number-of-threads>16</number-of-threads>
 +
</pre>
 +
 
 +
The following screenshots capture the same axial slice (#119) of the following images in order: (1) image containing the tumor probabilities, and (2) the simulated Gad enhanced image, both overlayed with the warped tumor/brain tissues labels.
  
 
{|
 
{|
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{|
 
{|
|'''Poisson ratio 0.4''' (initial value)
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|'''Poisson ratio 0.4'''
 
|<gallery perrow="3" heights="300px" widths="400px">
 
|<gallery perrow="3" heights="300px" widths="400px">
 
Image:ts_rc4_p0.4_prob.jpg
 
Image:ts_rc4_p0.4_prob.jpg
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{|
 
{|
|'''Poisson ratio 0.2''' (initial value)
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|'''Poisson ratio 0.2'''
 
|<gallery perrow="3" heights="300px" widths="400px">
 
|<gallery perrow="3" heights="300px" widths="400px">
 
Image:ts_rc4_p0.2_prob.jpg
 
Image:ts_rc4_p0.2_prob.jpg
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</gallery>
 
</gallery>
 
|}
 
|}
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= Standing questions/items =
 +
 +
* limited tumor growth/surrounding brain deformation with 10 iterations -- try more iterations
 +
* reduction of Poisson ratio makes results very unrealistic

Revision as of 15:15, 2 October 2009

Home < Meningioma growth modeling with TumorSim

This is a follow-up project for Meningioma growth simulation project within 2009 Boston programming week project.

tumorsim1.1rc2 experiments

Seed 1 (default)

NOTE: red outlines the boundary of the label corresponding to the initial tumor seed!

<flash>file=Seed_1_simulation.swf|width=1000|height=800|quality=best</flash>

Seed 3 (ventricle)

<flash>file=Seed_3_simulation.swf|width=1000|height=800|quality=best</flash>

tumorsim1.1.rc4 experiments

All the following experiments are based on the "thin dura" input labels, and the tumor seed image shown on the right. The tumor label is shown in green color. Note that the tumor is touching the gray matter label.

Also, all of the experiments use the following configuration file, where POISSON value is substituted with 0.5, 0.4, and 0.2, with the simulation results shown below.

<?xml version="1.0"?>
<tumor-simulation-parameters>

<dataset-name>SimMeningioma001</dataset-name>

<input-directory>../TumorSimInputWithThinDura</input-directory>
<output-directory>./0.05</output-directory>

<brain-young-modulus>694</brain-young-modulus>
<brain-poisson-ratio>POISSON</brain-poisson-ratio>

<deformation-seed>../SlicerScenes/NewSeed3-1.nrrd</deformation-seed>
<deformation-iterations>10</deformation-iterations>
<deformation-initial-pressure>3.0</deformation-initial-pressure>
<deformation-kappa>1e+06</deformation-kappa>
<deformation-damping>1</deformation-damping>

<deformation-solver-iterations>8</deformation-solver-iterations>
<infiltration-solver-iterations>2</infiltration-solver-iterations>

<infiltration-iterations>2</infiltration-iterations>
<infiltration-time-step>1e-6</infiltration-time-step>
<infiltration-early-time>0.5e-6</infiltration-early-time>
<infiltration-body-force-iterations>2</infiltration-body-force-iterations>
<infiltration-body-force-coefficient>10.0</infiltration-body-force-coefficient>

<contrast-enhancement-type>uniform</contrast-enhancement-type>

<number-of-threads>16</number-of-threads>

The following screenshots capture the same axial slice (#119) of the following images in order: (1) image containing the tumor probabilities, and (2) the simulated Gad enhanced image, both overlayed with the warped tumor/brain tissues labels.

Poisson ratio 0.5 (initial value)
Poisson ratio 0.4
Poisson ratio 0.2

Standing questions/items

  • limited tumor growth/surrounding brain deformation with 10 iterations -- try more iterations
  • reduction of Poisson ratio makes results very unrealistic