Evaluation of Relative Transmitted Dose for a Step and Shoot Head and Neck Intensity Modulated Radiation Therapy Using a Scanning Liquid Ionization Chamber Electronic Portal Imaging Device

Overview

Journal J Med Phys

Date 2012 Feb 25

PMID 22363108

Citations 2

Authors

Mohammad Mohammadi

Eva Bezak

Affiliations

Soon will be listed here.

Abstract

The dose delivery verification for a head and neck static intensity modulated radiation therapy (IMRT) case using a scanning liquid ionization chamber electronic portal imaging device (SLIC-EPID) was investigated. Acquired electronic portal images were firstly converted into transmitted dose maps using an in-house developed method. The dose distributions were then compared with those calculated in a virtual EPID using the Pinnacle(3) treatment planning system (TPS). Using gamma evaluation with the ΔD(max) and DTA criteria of 3%/2.54 mm, an excellent agreement was observed between transmitted dose measured using SLIC-EPID and that calculated by TPS (gamma score approximately 95%) for large MLC fields. In contrast, for several small subfields, due to SLIC-EPID image blurring, significant disagreement was found in the gamma results. Differences between EPID and TPS dose maps were also observed for several parts of the radiation subfields, when the radiation beam passed through air on the outside of tissue. The transmitted dose distributions measured using portal imagers such as SLIC-EPID can be used to verify the dose delivery to a patient. However, several aspects such as accurate calibration procedure and imager response under different conditions should be taken into the consideration. In addition, SLIC-EPID image blurring is another important issue, which should be considered if the SLIC-EPID is used for clinical dosimetry verification.

Citing Articles

An Empirical Transmitted EPID Dosimetry Method using a Back-Projection Algorithm.

S M H, M H B, M M, S N, S B, H G J Biomed Phys Eng. 2019; 9(5):551-558.

PMID: 31750269 PMC: 6820021. DOI: 10.31661/jbpe.v0i0.1082.

Modification of the gamma function for the recognition of over- and under-dose regions in three dimensions.

Mohammadi M, Rostampour N, Rutten T J Med Phys. 2013; 37(4):200-6.

PMID: 23293451 PMC: 3532748. DOI: 10.4103/0971-6203.103605.

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