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Strahlentherapie und Onkologie
Published in: Strahlentherapie und Onkologie 11/2014

01-10-2014 | Original article

Optimization by visualization of indices

Authors: Dr. Uwe Haverkamp, Darius Norkus, M.D., Jan Kriz, M.D., Mariam Müller Minai, Msc, Franz-Josef Prott, M.D., Hans Theodor Eich, M.D.

Published in: Strahlentherapie und Onkologie | Issue 11/2014

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Abstract

Background and purpose

Physical 3D treatment planning provides a pool of parameters describing dose distributions. It is often useful to define conformal indices to enable quicker evaluation. However, the application of individual indices is controversial and not always effective. The aim of this study was to design a quick check of dose distributions based on several indices detecting underdosages within planning target volumes (PTVs) and overdosages in normal tissue.

Materials and methods

Dose distributions of 215 cancer patients were considered. Treatment modalities used were three-dimensional conformal radiotherapy (3DCRT), radiosurgery, intensity-modulated radiotherapy (IMRT), intensity-modulated arc therapy (IMAT) and tomotherapy. The volumes recommended in ICRU 50 and 83 were used for planning and six conformation and homogeneity indices were selected: CI, CN, CICRU, COV, C, and HI. These were based on the PTV, the partial volume covered by the prescribed isodose (PI; PTVPI), the treated volume (TVPI), near maximum D2 and near minimum D98. Results were presented as a hexagon—the corners of which represent the values of the indices—and a modified test function F (Rosenbrock’s function) was calculated. Results refer to clinical examples and mean values, in order to allow evaluation of the power of F and hexagon-based decision support procedures in detail and in general.

Results

IMAT and tomotherapy showed the best values for the indices and the lowest standard deviation followed by static IMRT. DCRT and radiosurgery (e.g. CN: IMAT 0.85 ± 0.06; tomotherapy 0.84 ± 0.06; IMRT 0.83 ± 0.07; 3DCRT 0.65 ± 0.08; radiosurgery 0.64 ± 0.11). In extreme situations, not all indices reflected the situation correctly. Over- and underdosing of PTV and normal tissue could be qualitatively assessed from the distortion of the hexagon in graphic analysis. Tomotherapy, IMRT, IMAT, 3DCRT and radiosurgery showed increasingly distorted hexagons, the type of distortion indicating exposure of normal tissue volumes. The calculated F values correlated with these observations.

Conclusion

An evaluation of dose distributions cannot be based on a single conformal index. A solution could be the use of several indices presented as a hexagonal graphic and/or as a test function.
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Metadata
Title
Optimization by visualization of indices
Authors
Dr. Uwe Haverkamp
Darius Norkus, M.D.
Jan Kriz, M.D.
Mariam Müller Minai, Msc
Franz-Josef Prott, M.D.
Hans Theodor Eich, M.D.
Publication date
01-10-2014
Publisher
Springer Berlin Heidelberg
Published in
Strahlentherapie und Onkologie / Issue 11/2014
Print ISSN: 0179-7158
Electronic ISSN: 1439-099X
DOI
https://doi.org/10.1007/s00066-014-0688-z

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