The effect of influence quantities and detector orientation on small-field patient-specific IMRT QA: comparison of measurements with various ionization chambers

The effect of influence quantities and detector orientation on small-field patient-specific IMRT QA: comparison of measurements with various ionization chambers

Intensity-modulated radiation therapy (IMRT) requires a patient-specific quality assurance (QA) program to validate the treatment plan and a high level of dosimetric accuracy in the treatment delivery. Dosimetric verification generally consists of both absolute- and relative-dose measurements in a p...

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Bibliographic Details
Published in:Radiological physics and technology Vol. 10; no. 2; pp. 195 - 203
Main Authors: Godson, Henry Finlay, Manickam, Ravikumar, Saminathan, Sathiyan, Ganesh, Kadirampatti Mani, Ponmalar, Retna
Format: Journal Article
Language:English
Published: Singapore Springer Singapore 01-06-2017
Springer Nature B.V
Subjects:
Humans
Imaging
Ion recombination
Ionization chambers
Irradiation
Leakage
Mathematical analysis
Medical and Radiation Physics
Medicine
Medicine & Public Health
Nuclear Medicine
Orientation
Polarity
Precision Medicine
Quality assurance
Quality Assurance, Health Care
Radiation therapy
Radiology
Radiometry - instrumentation
Radiotherapy
Radiotherapy, Intensity-Modulated
Stability analysis
Uncertainty
Detector orientation
Influence quantities
IMRT QA
Point-dose verification
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Summary:Intensity-modulated radiation therapy (IMRT) requires a patient-specific quality assurance (QA) program to validate the treatment plan and a high level of dosimetric accuracy in the treatment delivery. Dosimetric verification generally consists of both absolute- and relative-dose measurements in a phantom using ionization chambers. Measurements were carried out with three different ionization chambers (Scanditronix FC 65G, Exradin A18, and PTW PinPoint 31014) to assess the effects of influence quantities such as the stability, pre- and post-irradiation leakage, stem effect, polarity, and ion recombination on the IMRT point-dose verification with two different orientations. The Exradin A18 and PTW PinPoint ion chambers demonstrated noticeable leakage to magnitudes of 0.6 and 1.2%, whereas negligible leakage was observed with FC 65G ion chamber. Maximum deviations of 0.5 and 0.6% were noticed for the smallest field owing to the ion recombination effect with the PTW PinPoint ion chamber in the parallel and perpendicular orientations, respectively. The calculated total uncertainties of all influence quantities for the FC 65G, A18, and PTW PinPoint ion chambers were 0.5, 0.7, and 1.3%, respectively. The uncertainties determined for each chamber were incorporated into the point-dose measurements of 30 head and neck patient-specific QA plans, and the variation was found to be within ±3%. The magnitude of the leakage in a small-volume ion chamber indicated the significance of incorporating the correction factors in the absolute-dose measurement. A paired t test analysis indicated that the influence quantities significantly affect the point-dose measurements in the patient-specific IMRT QA.
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ISSN:1865-0333
1865-0341
DOI:10.1007/s12194-016-0385-y