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Abstract
Three-dimensional (3D) gel dosimetry has a unique role to play in safeguarding conformal radiotherapy treatments as the technique can cover the full treatment chain and provides the radiation oncologist with the integrated dose distribution in 3D. It can also be applied to benchmark new treatment strategies such as image guided and tracking radiotherapy techniques. A major obstacle that has hindered the wider dissemination of gel dosimetry in radiotherapy centres is a lack of confidence in the reliability of the measured dose distribution. Uncertainties in 3D dosimeters are attributed to both dosimeter properties and scanning performance. In polymer gel dosimetry with MRI readout, discrepancies in dose response of large polymer gel dosimeters versus small calibration phantoms have been reported which can lead to significant inaccuracies in the dose maps. The sources of error in polymer gel dosimetry with MRI readout are well understood and it has been demonstrated that with a carefully designed scanning protocol, the overall uncertainty in absolute dose that can currently be obtained falls within 5% on an individual voxel basis, for a minimum voxel size of 5 mm(3). However, several research groups have chosen to use polymer gel dosimetry in a relative manner by normalizing the dose distribution towards an internal reference dose within the gel dosimeter phantom. 3D dosimetry with optical scanning has also been mostly applied in a relative way, although in principle absolute calibration is possible. As the optical absorption in 3D dosimeters is less dependent on temperature it can be expected that the achievable accuracy is higher with optical CT. The precision in optical scanning of 3D dosimeters depends to a large extend on the performance of the detector. 3D dosimetry with X-ray CT readout is a low contrast imaging modality for polymer gel dosimetry. Sources of error in x-ray CT polymer gel dosimetry (XCT) are currently under investigation and include inherent limitations in dosimeter homogeneity, imaging performance, and errors induced through post-acquisition processing. This overview highlights a number of aspects relating to uncertainties in polymer gel dosimetry.
Keywords
OPTICAL-CT SCANNER, RADIATION-DOSE DISTRIBUTIONS, POLYMER GEL, COMPUTED-TOMOGRAPHY, CONFORMAL RADIOTHERAPY, VERIFICATION, ARTIFACTS, TEMPERATURE, IRRADIATION, CALIBRATION

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MLA
De Deene, Yves, and Andrew Jirasek. “Uncertainty in 3D Gel Dosimetry.” Journal of Physics Conference Series, vol. 573, IOP, 2015, doi:10.1088/1742-6596/573/1/012008.
APA
De Deene, Y., & Jirasek, A. (2015). Uncertainty in 3D gel dosimetry. Journal of Physics Conference Series, 573. https://doi.org/10.1088/1742-6596/573/1/012008
Chicago author-date
De Deene, Yves, and Andrew Jirasek. 2015. “Uncertainty in 3D Gel Dosimetry.” In Journal of Physics Conference Series. Vol. 573. Bristol, UK: IOP. https://doi.org/10.1088/1742-6596/573/1/012008.
Chicago author-date (all authors)
De Deene, Yves, and Andrew Jirasek. 2015. “Uncertainty in 3D Gel Dosimetry.” In Journal of Physics Conference Series. Vol. 573. Bristol, UK: IOP. doi:10.1088/1742-6596/573/1/012008.
Vancouver
1.
De Deene Y, Jirasek A. Uncertainty in 3D gel dosimetry. In: Journal of Physics Conference Series. Bristol, UK: IOP; 2015.
IEEE
[1]
Y. De Deene and A. Jirasek, “Uncertainty in 3D gel dosimetry,” in Journal of Physics Conference Series, Ystad, Sweden, 2015, vol. 573.
@inproceedings{8038410,
  abstract     = {{Three-dimensional (3D) gel dosimetry has a unique role to play in safeguarding conformal radiotherapy treatments as the technique can cover the full treatment chain and provides the radiation oncologist with the integrated dose distribution in 3D. It can also be applied to benchmark new treatment strategies such as image guided and tracking radiotherapy techniques. A major obstacle that has hindered the wider dissemination of gel dosimetry in radiotherapy centres is a lack of confidence in the reliability of the measured dose distribution. Uncertainties in 3D dosimeters are attributed to both dosimeter properties and scanning performance. In polymer gel dosimetry with MRI readout, discrepancies in dose response of large polymer gel dosimeters versus small calibration phantoms have been reported which can lead to significant inaccuracies in the dose maps. The sources of error in polymer gel dosimetry with MRI readout are well understood and it has been demonstrated that with a carefully designed scanning protocol, the overall uncertainty in absolute dose that can currently be obtained falls within 5% on an individual voxel basis, for a minimum voxel size of 5 mm(3). However, several research groups have chosen to use polymer gel dosimetry in a relative manner by normalizing the dose distribution towards an internal reference dose within the gel dosimeter phantom. 3D dosimetry with optical scanning has also been mostly applied in a relative way, although in principle absolute calibration is possible. As the optical absorption in 3D dosimeters is less dependent on temperature it can be expected that the achievable accuracy is higher with optical CT. The precision in optical scanning of 3D dosimeters depends to a large extend on the performance of the detector. 3D dosimetry with X-ray CT readout is a low contrast imaging modality for polymer gel dosimetry. Sources of error in x-ray CT polymer gel dosimetry (XCT) are currently under investigation and include inherent limitations in dosimeter homogeneity, imaging performance, and errors induced through post-acquisition processing. This overview highlights a number of aspects relating to uncertainties in polymer gel dosimetry.}},
  articleno    = {{012008}},
  author       = {{De Deene, Yves and Jirasek, Andrew}},
  booktitle    = {{Journal of Physics Conference Series}},
  issn         = {{1742-6588}},
  keywords     = {{OPTICAL-CT SCANNER,RADIATION-DOSE DISTRIBUTIONS,POLYMER GEL,COMPUTED-TOMOGRAPHY,CONFORMAL RADIOTHERAPY,VERIFICATION,ARTIFACTS,TEMPERATURE,IRRADIATION,CALIBRATION}},
  language     = {{eng}},
  location     = {{Ystad, Sweden}},
  pages        = {{10}},
  publisher    = {{IOP}},
  title        = {{Uncertainty in 3D gel dosimetry}},
  url          = {{http://doi.org/10.1088/1742-6596/573/1/012008}},
  volume       = {{573}},
  year         = {{2015}},
}

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