Volume 43, Issue 3 p. 1501-1506
Therapeutic interventions

Technical Note: Relationships between gamma criteria and action levels: Results of a multicenter audit of gamma agreement index results

Scott B. Crowe

Scott B. Crowe

Royal Brisbane and Women's Hospital, Butterfield Street, Herston QLD 4029, Australia and Science and Engineering Faculty, Queensland University of Technology, 2 George Street, Brisbane QLD 4000, Australia

Electronic mail: [email protected]; http://sbcrowe.net.

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Bess Sutherland

Bess Sutherland

Genesis Cancer Care Queensland, 1/40 Chasely Street, Auchenflower QLD 4066, Australia

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Rachael Wilks

Rachael Wilks

Royal Brisbane and Women's Hospital, Butterfield Street, Herston QLD 4029, Australia

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Venkatakrishnan Seshadri

Venkatakrishnan Seshadri

Princess Alexandra Hospital, 199 Ipswich Road, Woolloongabba QLD 4102, Australia

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Steven Sylvander

Steven Sylvander

Royal Brisbane and Women's Hospital, Butterfield Street, Herston QLD 4029, Australia

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Jamie V. Trapp

Jamie V. Trapp

Science and Engineering Faculty, Queensland University of Technology, 2 George Street, Brisbane QLD 4000, Australia

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Tanya Kairn

Tanya Kairn

Genesis Cancer Care Queensland, 1/40 Chasely Street, Auchenflower QLD 4066, Australia and Science and Engineering Faculty, Queensland University of Technology, 2 George Street, Brisbane QLD 4000, Australia

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First published: 25 February 2016
Citations: 33

Abstract

Purpose:

The aim of this work was to use a multicenter audit of modulated radiotherapy quality assurance (QA) data to provide a practical examination of gamma evaluation criteria and action level selection. The use of the gamma evaluation method for patient-specific pretreatment QA is widespread, with most commercial solutions implementing the method.

Methods:

Gamma agreement indices were calculated using the criteria 1%/1 mm, 2%/2 mm, 2%/3 mm, 3%/2 mm, 3%/3 mm, and 5%/3 mm for 1265 pretreatment QA measurements, planned at seven treatment centers, using four different treatment planning systems, delivered using three different delivery systems (intensity-modulated radiation therapy, volumetric-modulated arc therapy, and helical tomotherapy) and measured using three different dose measurement systems. The sensitivity of each pair of gamma criteria was evaluated relative to the gamma agreement indices calculated using 3%/3 mm.

Results:

A linear relationship was observed for 2%/2 mm, 2%/3 mm, and 3%/2 mm. This result implies that most beams failing at 3%/3 mm would also fail for those criteria, if the action level was adjusted appropriately. Some borderline plans might be passed or failed depending on the relative priority (tighter tolerance) used for dose difference or distance to agreement evaluation. Dosimeter resolution and treatment modality were found to have a smaller effect on the results of QA measurements than the number of dimensions (2D or 3D) over which the gamma evaluation was calculated.

Conclusions:

This work provides a method (and a large sample of results) for calculating equivalent action levels for different gamma evaluation criteria. This work constitutes a valuable guide for clinical decision making and a means to compare published gamma evaluation results from studies using different evaluation criteria. More generally, the data provided by this work support the recommendation that gamma criteria that specifically prioritize the property of greatest clinical importance for each treatment modality of anatomical site should be selected when using gamma evaluations for modulated radiotherapy QA. It is therefore suggested that departments using the gamma evaluation as a QA analysis tool should consider the relative importance of dose difference and distance to agreement, when selecting gamma evaluation criteria.