Determination of intrinsic energy dependence of point‐like inorganic scintillation detector in brachytherapy

Author:

Georgi Peter1,Tedgren Åsa Carlsson234,Persson Linda35,Johansen Jacob Graversen16

Affiliation:

1. Department of Clinical Medicine Aarhus University Aarhus Denmark

2. Department of Medicine Health and Caring Sciences Linköping University Linköping Sweden

3. Department of Oncology‐Pathology the Karolinska Institute Stockholm Sweden

4. Department of Medical Physics and Nuclear Medicine Karolinska Hospital Stockholm Sweden

5. National Regulation Department Swedish Radiation Safety Authority Stockholm Sweden

6. Department of Oncology Aarhus University Hospital Aarhus Denmark

Abstract

AbstractBackgroundInorganic scintillation detectors (ISDs) are promising for in vivo dosimetry in brachytherapy (BT). ISDs have fast response, providing time resolved dose rate information, and high sensitivity, attributed to high atomic numbers. However, the conversion of the detector signal to absorbed dose‐to‐water is highly dependent on the energy spectrum of the incident radiation. This dependence is comprised of absorbed dose energy dependence, obtainable with Monte Carlo (MC) simulation, and the absorbed dose‐to‐signal conversion efficiency or intrinsic energy dependence requiring measurements. Studies have indicated negligible intrinsic energy dependence of ZnSe:O‐based ISDs in Ir‐192 BT. A full characterization has not been performed earlier.PurposeThis study characterizes the intrinsic energy dependence of ZnSe:O‐based ISDs for kV X‐ray radiation qualities, with energies relevant for BT.MethodsThree point‐like ISDs made from fiber‐coupled cuboid ZnSe:O‐based scintillators were calibrated at the Swedish National Metrology Laboratory for ionizing radiation. The calibration was done in terms of air kerma free‐in‐air, , in 13 X‐ray radiation qualities, , from 25 to 300 kVp (CCRI 25–250 kV and ISO 4037 N‐series), and in terms of absorbed dose to water, , in a Co‐60 beam, .The mean absorbed dose to the ISDs, relative to and , were obtained with the MC code TOPAS (Geant4) using X‐ray spectra obtained with SpekPy software and laboratory filtration data and a generic Co‐60 source.The intrinsic energy dependence was determined as a function of effective photon energy, , (relative to Co‐60).The angular dependence of the ISD signal was measured in a 25 kVp (0.20 mm Al HVL) and 135 kVp beam (0.48 mm Cu HVL), by rotating the ISDs 180° around the fiber's longitudinal axis (perpendicular to the beam). A full 360° was not performed due to setup limitations. The impact of detector design was quantified with MC simulation.ResultsAbove 30 keV the intrinsic energy dependence varied with less than 5 ± 4% from unity for all detectors (with the uncertainty expressed as the mean of all expanded measurement uncertainties for individual above 30 keV, k = 2). Below 30 keV, it decreased with up to 17% and inter‐detector variations of 13% were observed, likely due to differences in detector geometry not captured by the simulations using nominal geometry. In the 25 kVp radiation quality, the ISD signal varied with 24% over a ∼45° rotation. For 135 kVp, the corresponding variation was below 3%. Assuming a 0.05 mm thicker layer of reflective paint around the sensitive volume changed the absorbed dose with 6.3% at the lowest , and with less than 2% at higher energies.ConclusionThe study suggests that the ISDs have an intrinsic energy dependence relative to Co‐60 lower than 5 ± 4% in radiation qualities with > 30 keV. Therefore, they could in principle be calibrated in a Co‐60 beam quality and transferred to such radiation qualities with correction factors determined only by the absorbed dose energy dependence obtained from MC simulations. This encourages exploration of the ISDs’ applications in intensity modulated BT with Yb‐169 or other novel intermediate energy isotopes.

Funder

Novo Nordisk Fonden

Cancerfonden

Publisher

Wiley

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