Difference between revisions of "2011 Winter Project Week:Breakout Multi-Image Engineering"

From NAMIC Wiki
Jump to: navigation, search
 
(One intermediate revision by one other user not shown)
Line 9: Line 9:
  
 
=Background=
 
=Background=
Increasingly, we have data in slicer which are multi something. Examples are:
+
Increasingly, we have data in in individual subjects in slicer which are multi something. Examples are:
 
*multi-channel (T1, T2, flair, dual echo, etc.)
 
*multi-channel (T1, T2, flair, dual echo, etc.)
 
*DWI
 
*DWI
 
*rgb and other multi-channel images
 
*rgb and other multi-channel images
 
*time series, including DCE, cardiac cycle, follow-up studies in cancer, multiple intra-procedural volumes (with potential translation, rotation, deformation)
 
*time series, including DCE, cardiac cycle, follow-up studies in cancer, multiple intra-procedural volumes (with potential translation, rotation, deformation)
*multiple subjects for atlas formation / population studies
+
*multiple subjects for atlas formation / population studies ?
*results from processing using different parameters
+
*results from processing using different parameters ?
  
 
=Current State=
 
=Current State=
Line 45: Line 45:
 
*Non-image nodes?
 
*Non-image nodes?
 
*May point to data on disk without immediately loading it, e.g., description of sequences/sets of images to be processed
 
*May point to data on disk without immediately loading it, e.g., description of sequences/sets of images to be processed
 +
*Support sharing: should be able to maintain the grouping of data for distribution to others (packaging, not just IO)
 +
**Unit = collection of MRML files?  (e.g., an xcat file is a standard format to describe results of a database search - supported by XNAT and MIDAS)
  
 
==Display==
 
==Display==

Latest revision as of 17:25, 10 January 2011

Home < 2011 Winter Project Week:Breakout Multi-Image Engineering
 Back to  Project Week Agenda


Agenda breakout session: Multi-Image Engineering in slicer

Wednesday 8-10am

Session Leaders: Jim Miller, Steve Pieper, Alex Yarmakovich, Junichi Tokuda, Demian Wasserman

Background

Increasingly, we have data in in individual subjects in slicer which are multi something. Examples are:

  • multi-channel (T1, T2, flair, dual echo, etc.)
  • DWI
  • rgb and other multi-channel images
  • time series, including DCE, cardiac cycle, follow-up studies in cancer, multiple intra-procedural volumes (with potential translation, rotation, deformation)
  • multiple subjects for atlas formation / population studies ?
  • results from processing using different parameters ?

Current State

We have parts of the ability to handle such multi-dimensional volume in the DWI and 4D infrastructures:

I/O

  • Dicom to nrrd
  • TimeSeriesBundleNode is a mrml node to organize 4D time series data.

Display

  • In the volumes module, a slider allows to look at any of the individual volumes in DWI data set.
  • In the 4D display module, a movie player like capability exists
  • The dti infrastructure allows the display of derived scalar values such as FA and color by orientation
  • Add an interface to break a multivolume into its elements and to assemble the elements into a multivolume. Equivalent, but more constrained capabilies have been recently added to the editor module.
Example of interface for breaking and assembling a multivolume

Existing Processing capabilities

Multi volumes are processed in Slicer in specialized ways.

  • Parametric analysis:
    • DTI estimation from DWI
    • Tofts parameter estimation from DCE
  • Segmentation:
    • EM segmentation from multi-channel morphology data
  • Registration
    • Brainsfit has in principle the ability to register multi data sets to each other and Gtract has a first solution which is engineered for DWI

The Need

All of the current examples are special cases. If we can generalize those into a single architecture for multi data, there would be a lot of potential for cross-benefits. We need a common engineering and UI philosophy for everybody who is working on these topics. Not just images but many (all?) MRML node types should support temporal or other sequences, such as: transform, model, fiducial

I/O

  • We should have a single module to organize the data. DICOM to nrrd is a good start, but we need to be able to handle separate T1 and T2 acquisitions as well. We also need to be able to handle non-dicom data. Perhaps something like: load all data into slicer and associate them inside slicer in a special module. Write out as a single nrrd file.
  • Non-image nodes?
  • May point to data on disk without immediately loading it, e.g., description of sequences/sets of images to be processed
  • Support sharing: should be able to maintain the grouping of data for distribution to others (packaging, not just IO)
    • Unit = collection of MRML files? (e.g., an xcat file is a standard format to describe results of a database search - supported by XNAT and MIDAS)

Display

  • We should create a single visualization infrastructure to handle multi data: compare viewers, rgb channels, time series movies: equivalent slice viewers and 3D viewers
  • Compareview should allow to show multi data in compareviewers. When we have a few volumes, then we can display all. If its a large number of volumes, we will only be able to display a few. Some engineering work will be needed to make this easy on the user.

Processing

  • Common api for processing: EM segmentation, pharmacokinetic models, DWI filtering, tensor estimation should all plug into the data in the same way.
  • Registration: where does it fit? should we provide capability to include transformation assigned to each timepoint/channel? rigid/non-rigid? If yes, probably we should allow to access the original data, probably storing resampled data only is not a good option.
    • Generalize eddy current correction for general purpose multi-data fusion? Same subject affine, multiple points. Add N4 bias correction?