Relative Sensitivities and Correlation of Factors Introducing Uncertainty in Radiotherapy Dosimetry Audits

Dosimetry audits are carried out to determine how well radiotherapy is delivered to the patient. It is also used to understand the uncertainty introduced into the measurement result when using different computational models. As measurement procedures are becoming increasingly complex with technologi...

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Bibliographic Details
Published inarXiv.org
Main Authors Krishnadas, Padmini, Spencer Angus Thomas, Goldring, Jessica, Smith, Nadia A S, Hussein, Mohammad
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 10.07.2024
Subjects
Correlation analysis
Dosimeters
Dosimetry
Mathematical analysis
Radiation therapy
Sensitivity analysis
Uncertainty
Variability
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Summary:Dosimetry audits are carried out to determine how well radiotherapy is delivered to the patient. It is also used to understand the uncertainty introduced into the measurement result when using different computational models. As measurement procedures are becoming increasingly complex with technological advancements, it is harder to establish sources of variability in measurements and understand if they stem from true differences in measurands or in the measurement pipelines themselves. The gamma index calculation is a widely accepted metric used for the comparison of measured and predicted doses in radiotherapy. However, various steps in the measurement pipeline can introduce variation in the measurement result. In this paper, we perform a sensitivity and correlation analysis to investigate the influence of various input factors (i.e. setting) in gamma index calculations on the uncertainty introduced in dosimetry audits. We identify a number of factors where standardization will improve measurements by reducing variability in outputs. Furthermore, we also compare gamma index metrics and similarities across audit sites.
ISSN:2331-8422