Difference between revisions of "Modules:DiffusionMRIWelcome-Documentation-3.6"

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We are now in position to estimate the Diffusion Tensor image from the DW image we have just calculated. However, in order to improve the quality of our image it is recommended to perform a denosing procedure beforehand.
 
We are now in position to estimate the Diffusion Tensor image from the DW image we have just calculated. However, in order to improve the quality of our image it is recommended to perform a denosing procedure beforehand.
 
====Denoise the DW images====
 
====Denoise the DW images====
 
+
For this step, we recommend the [[Modules:JointRicianLMMSEImageFilter-Documentation-3.6|'''Joint Rician LMMSE Image Filter''']] due to its compromise of speed and soundness. This step is carried on by:
# Estimate the DT from DW
+
#Selecting the [[Modules:JointRicianLMMSEImageFilter-Documentation-3.6| '''Joint Rician LMMSE Image Filter''']] module which is under the '''Diffusion'' module category within the '''Denoising''' sub-category.
 +
#Setting in the '''Input Volume''' field of the module the image obtained from the [[#First: Convert the Diffusion Weighted Images (DWI) from DICOM to NRRD | previous conversion step]]. For instance ''dwi.nhdr''.
 +
#In the '''Output Volume''' field, selecting the option '''Create a New Diffusion Weighted Volume'''. This volume will have the automatically assigned name ''Joint Rician LMMSE Image Filter Volume''.
 +
#Pressing the '''Apply''' button.
 +
====Estimate the DT from the DW image====
  
 
===Third: Perform a tractography study===
 
===Third: Perform a tractography study===
 
#From DT to Tractography
 
#From DT to Tractography

Revision as of 23:44, 17 May 2010

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Diffusion MRI in 3D Slicer

An rich set of tools is available within 3D Slicer to perform Diffusion MRI image visualization and analysis. There are three categories of modules: DWI filtering for denoising the Diffusion Weighted (DW) images; Diffusion tensor utilities for estimating diffusion tensors (DT) from DW images and calculating scalar invariants like the fractional anisotropy (FA) and resampling the DT images; and Tractography to trace and analyse white matter fibers from DT images and assess connectivity between regions from DW images.

For a brief description of the common diffusion MRI processing pipeline please follow this link .

Diffusion MRI Modules

DWI Filtering

Result of the different DWI filtering algorithms. From left to right: Original images, Unbiased Non Local Means filter for DWI; Rician LMMSE Image Filter; Joint Rician LMMSE Image Filter. Image from A. Tristán-Vega and S. Aja-Fernández. DWI filtering using joint information for DTI and HARDI. Medical Image Analysis, 2009.

Three techniques are provided for denoising DW images:

  • Unbiased Non Local Means filter for DWI: Is the one providing the most visually appealing results. However, it is very time consuming and may mix information from remote areas of the image.
  • Rician LMMSE Image Filter: Estimates Rician noise and uses this estimation and spatial coherence to perform the denoising. It processes each gradient direction individually.
  • Joint Rician LMMSE Image Filter: Estimates Rician noise and uses this estimation, spatial and orientational coherence to perform the denoising. It jointly processes several gradient directions.

Diffusion Tensor Utilities

Diffusion tensor image estimated from a DW image using the Diffusion Tensor Estimation module.
Fractional anisotropy image calculated from a diffusion tensor image using the Diffusion Tensor Scalar Measurements module.

Tractography

Deterministic tractography result produced with the Label Seeding or Fiducial Seeding modules.
Stochastic tractography result produced with the Stochastic Tractography module.
  • Label Seeding: Deterministic tracing of the white matter fibers traversing a specified labeled region of the diffusion tensor image.
  • Fiducial Seeding: Deterministic tracing of the white matter fibers traversing each fiducial from a fiducial list.
  • FiberBundles: Tuning of the visualization options for the deterministic tractography results produced with the Label Seeding or Fiducial Seeding modules.
  • Stochastic Tractography: Probabilistically traces the white matter fibers connecting two regions. The output of this module is an image quantifying the probability that white matter fiber connecting two selected regions traverses each point in space.
  • ROI Select: Filters tracts produced by determinictractography passing through a region of interest expressed as a labeled region on the diffusion tensor image.

Diffusion Processing Pipeline

First: Convert the Diffusion Weighted Images (DWI) from DICOM to NRRD

In order to use 3D Slicer to process the Diffusion Weighted Images obtained from a Diffusion Tensor imaging protocol, we must convert them to the NRRD format as follows:

  1. Select the Dicom To Nrrd module from the Converters module category.
  2. Click on Input Dicom Data and select the directory where your the DICOM files corresponding to your DWI images are stored.
  3. Click on Output Directory and select the directory where you want to store the resulting NRRD file.
  4. Fill in Output Filename the name of the file, for instance: dwi.nhdr.
  5. Press the Apply button.

Second: Estimate the Diffusion Tensor Image (DT) from your DWI

We are now in position to estimate the Diffusion Tensor image from the DW image we have just calculated. However, in order to improve the quality of our image it is recommended to perform a denosing procedure beforehand.

Denoise the DW images

For this step, we recommend the Joint Rician LMMSE Image Filter due to its compromise of speed and soundness. This step is carried on by:

  1. Selecting the Joint Rician LMMSE Image Filter module which is under the Diffusion module category within the Denoising' sub-category.
  2. Setting in the Input Volume field of the module the image obtained from the previous conversion step. For instance dwi.nhdr.
  3. In the Output Volume field, selecting the option Create a New Diffusion Weighted Volume. This volume will have the automatically assigned name Joint Rician LMMSE Image Filter Volume.
  4. Pressing the Apply button.

Estimate the DT from the DW image

Third: Perform a tractography study

  1. From DT to Tractography