Difference between revisions of "Documentation/Nightly/Modules/DoseVolumeHistogram"

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Revision as of 21:26, 8 November 2012

Home < Documentation < Nightly < Modules < DoseVolumeHistogram

Introduction and Acknowledgements

This work is part of the SparKit project, funded by An Applied Cancer Research Unit of Cancer Care Ontario with funds provided by the Ministry of Health and Long-Term Care and the Ontario Consortium for Adaptive Interventions in Radiation Oncology (OCAIRO) to provide free, open-source toolset for radiotherapy and related image-guided interventions.
Author: Csaba Pinter (PerkLab, Queen's University)
Contact: Csaba Pinter, <email>pinter@cs.queensu.ca</email>

Cancer Care Ontario  
Software Platform and Adaptive Radiotherapy Kit  

Module Description

The DoseVolumeHistogram module computes dose volume histogram (DVH) and metrics from a dose map and structure set(s).

The dimensions of the 3D elements (voxels) describing delineated structures are derived from the selected dose distribution volume, in which the voxels have width in the transverse imaging plane as described in the DICOM image header. The image set volume is defined by a grid of voxels derived from the voxel grid in the dose volume. The dose grid is oversampled by a factor currently fixed to the value 2. The centre of each voxel is examined and if found to lie within a structure, is included in the volume for that structure. The dose value at the centre of the cube is interpolated in 3D from the dose grid.

Use Cases

Evaluate single or accumulated dose distributions against target structures and organs at risk (OARs)

Dose volume histogram computation using SlicerRT

Tutorials

See SlicerRT extension page

Panels and their use

  • Input
    • Dose volume: The dose distribution using which the DVH is computed and the structure labelmap is created if necessary. All the volumes present in the Slicer scene appear here, however, when selecting a volume that has not been created by a SlicerRT module (such as DicomRtImport or DoseAccumulation), a warning will be displayed. If using such a volume, it is assumed not to contain dose values, so an Intensity Volume Histogram is created.
    • Structure set: A contour or a contour hierarchy can be selected for which the DVH tables are computed. In case of a hierarchy, the DVH is computed for every contained contour.
  • Output
    • Chart: A chart can be created or selected in which the DVH plots are added
    • Show/hide all: After computing histograms and a chart, this checkbox adds or removes every histogram from the selected chart
    • DVH table
      • Checkbox: show/hide that specific structure in the selected chart
      • Structure data and computed DVH metrics appear in the columns
  • Advanced options
    • V metric for dose values: Values can be entered separated by commas. If 'cc' or '%' is checked, then the V metric for all structures according the entered values will appear in the DVH table in the checked unit(s)
    • D metric for volumes: Values can be entered separated by commas in either ccs or percents. If 'Gy' is checked then the D metric for the entered volumes are displayed in the DVH table
    • Export DVH to file: The currently plotted DVH tables are saved in CSV format
    • Export DVH metrics to file: The currently displayed DVH table can be exported in CSV format


Similar Modules

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References

  • Ebert, M. A.; Haworth, A.; Kearvell, R.; Hooton, B.; Hug, B.; Spry, N. A.; Bydder, S. A. & Joseph, D. J. Comparison of DVH data from multiple planning systems Phys. Med. Biol., 2010, 55, N337–N346
  • Pinter, C.; Lasso, A.; Wang, A.; Jaffray, D. & Fichtinger, G. SlicerRT: Radiation therapy research toolkit for 3D Slicer Med. Phys., 2012, 39(10), 6332/7

Information for Developers