Difference between revisions of "Documentation/4.10/Extensions/LesionSimulator"

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[[Image:LesionSimulator-logo.png|left]]
 
[[Image:LesionSimulator-logo.png|left]]
  
This extension offer a set of tools for brain lesion simulation, based on MRI images. At moment, the module MS Lesion Simulator is available, where it can simulates both baseline scan lesion volumes (given a lesion load) and longitudinal image simulations. In summary, a statistical lesion database is generated based on a set of manual lesion mark-ups, being non-linearly registered to MNI152 space (isotropic 1mm of voxel resolution), and a local contrast ratio is applied on each image modality provided by the user. Using a small set of parameters (lesion load, lesion homogeneity, lesion intensity indenpendence and lesion variability), it is possible to generate a broad range of MS lesions patterns in multimodal MRI imaging techniques (at moment, T1, T2, T2-FLAIR, PD, DTI-FA and DTI-ADC images are provided). For more details about this project, please see the [http://dx.doi.org/ original paper].
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This extension offers a set of tools for brain lesion simulation, based on MRI images. At the moment, the module MS Lesion Simulator is available, where it can simulate both baseline scan lesion volumes (given a lesion load) and longitudinal image simulations. In summary, a statistical lesion database is generated based on a set of manual lesion mark-ups, being non-linearly registered to MNI152 space (isotropic 1mm of voxel resolution), and a local contrast ratio is applied on each imaging modality provided by the user. Using a small set of parameters (lesion load, lesion homogeneity, lesion intensity independence and lesion variability), it is possible to generate a broad range of MS lesions patterns in multimodal MRI imaging techniques (at moment, T1, T2, T2-FLAIR, PD, DTI-FA and DTI-ADC images are provided). For more details about this project, please see the [http://dx.doi.org/ original paper].
  
 
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Most frequently used for these scenarios:
 
Most frequently used for these scenarios:
 
* Use Case 1: Simulate different anatomical/clinical MS lesions patterns on healthy individuals MRI images
 
* Use Case 1: Simulate different anatomical/clinical MS lesions patterns on healthy individuals MRI images
**In the baseline scan approach, it is offered a simulation procedure where a determined lesion load is reconstructed using a subject specific anatomical features, resulting in a realistic MS lesion load simulation.
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**In the baseline scan approach, it is offered a simulation procedure where a determined lesion load is reconstructed using subject-specific anatomical features, resulting in a realistic MS lesion load simulation.
 
* Use Case 2: Simulate longitudinal MS lesion progression on clinical healthy individuals MRI images
 
* Use Case 2: Simulate longitudinal MS lesion progression on clinical healthy individuals MRI images
 
**Another important issue in Multiple Sclerosis diagnosis is the lesion progression, where drive the therapeutic strategy by the health professionals. In this case, an automatic segmentation approach could be optimally adjusted for the time progression presented in a exam series.
 
**Another important issue in Multiple Sclerosis diagnosis is the lesion progression, where drive the therapeutic strategy by the health professionals. In this case, an automatic segmentation approach could be optimally adjusted for the time progression presented in a exam series.
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{{documentation/{{documentation/version}}/extension-section|Tutorials}}
 
{{documentation/{{documentation/version}}/extension-section|Tutorials}}
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<gallery>
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File:MSLesionSimulator-Tutorial-1.pdf|page=1|How to simulate T1 hypointense Multiple Sclerosis lesions
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Revision as of 14:49, 27 April 2019

Home < Documentation < 4.10 < Extensions < LesionSimulator


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


Introduction and Acknowledgements

This work was partially funded by CAPES and CNPq, a Brazillian Agencies. Information on CAPES can be obtained on the CAPES website and CNPq website.
Authors: Antonio Carlos da S. Senra Filho and Fabrício Henrique Simozo, CSIM Laboratory (University of Sao Paulo, Department of Computing and Mathematics)
Contacts: Antonio Carlos da S. Senra Filho <email>acsenrafilho@usp.br</email> - Fabrício Henrique Simozo <email>fsimozo@gmail.com</email>

CSIM Laboratory  
University of Sao Paulo  
CNPq Brazil  
CAPES Brazil  


Extension Description

LesionSimulator-logo.png

This extension offers a set of tools for brain lesion simulation, based on MRI images. At the moment, the module MS Lesion Simulator is available, where it can simulate both baseline scan lesion volumes (given a lesion load) and longitudinal image simulations. In summary, a statistical lesion database is generated based on a set of manual lesion mark-ups, being non-linearly registered to MNI152 space (isotropic 1mm of voxel resolution), and a local contrast ratio is applied on each imaging modality provided by the user. Using a small set of parameters (lesion load, lesion homogeneity, lesion intensity independence and lesion variability), it is possible to generate a broad range of MS lesions patterns in multimodal MRI imaging techniques (at moment, T1, T2, T2-FLAIR, PD, DTI-FA and DTI-ADC images are provided). For more details about this project, please see the original paper.

Modules

Use Cases

Most frequently used for these scenarios:

  • Use Case 1: Simulate different anatomical/clinical MS lesions patterns on healthy individuals MRI images
    • In the baseline scan approach, it is offered a simulation procedure where a determined lesion load is reconstructed using subject-specific anatomical features, resulting in a realistic MS lesion load simulation.
  • Use Case 2: Simulate longitudinal MS lesion progression on clinical healthy individuals MRI images
    • Another important issue in Multiple Sclerosis diagnosis is the lesion progression, where drive the therapeutic strategy by the health professionals. In this case, an automatic segmentation approach could be optimally adjusted for the time progression presented in a exam series.

Tutorials

Similar Extensions

N/A

References

  • paper

Information for Developers


Repositories: