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| Home > Publications database > Sensitivity correction of Fluorescent Nuclear Track Detectors using alpha particles: Determining LET spectra of light ions with enhanced accuracy. |
| Home > Publications database > Sensitivity correction of Fluorescent Nuclear Track Detectors using alpha particles: Determining LET spectra of light ions with enhanced accuracy. |
| Journal Article | DKFZ-2022-02678 |
; ; ; ; ;
2023
AAPM
College Park, Md.
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Please use a persistent id in citations: doi:10.1002/mp.16083
Abstract: Radiation fields encountered in Proton Therapy (PT) and Ion-Beam Therapy (IBT) are characterized by a variable Linear Energy Transfer (LET), which lead to a variation of Relative Biological Effectiveness and also affects the response of certain dosimeters. Therefore, reliable tools to measure LET are advantageous to predict and correct LET effects. Fluorescent Nuclear Track Detectors (FNTDs) are suitable to measure LET spectra within the range of interest for PT and IBT, but so far the accuracy and precision have been challenged by sensitivity variations between individual crystals.To develop a novel methodology to correct changes in the fluorescent intensity due to sensitivity variations among FNTDs. This methodology is based on exposing FNTDs to alpha particles in order to derive a detector-specific correction factor. This will allow to improve the accuracy and precision of LET spectra measurements with FNTDs.FNTDs were exposed to alpha particles. Afterwards, the detectors were irradiated to monoenergetic protons, 4 He-, 12 C- and 16 O-ions. At each step, the detectors were imaged with a Confocal Laser Scanning Microscope. The tracks were reconstructed and analyzed using in-house developed tools. Alpha-particle tracks were used to derive a detector-specific sensitivity correction factor ( k s , i ${k}_{s,i}$ ). Proton, 4 He-, 12 C- and 16 O-ion tracks were used to establish a traceable calibration curve that relates the fluorescence intensity with the LET in water ( L E T H 2 O $LE{T}_{{H}_2O}$ ). FNTDs from a second batch were exposed and analyzed following the same procedures, to test if k s , i ${k}_{s,i}$ can be used to extend the applicability of the calibration curve to detectors from different batches. Finally, a set of blind tests was performed to assess the accuracy of the proposed methodology without user bias. Throughout all stages, the main sources of uncertainty were evaluated.Based on a sample of 100 FNTDs, our findings show a high sensitivity heterogeneity between FNTDs, with k s , i ${k}_{s,i}$ having values between 0.57 and 2.55. The fitting quality of the calibration curve, characterized by the mean absolute percentage residuals and correlation coefficient, was improved when k s , i ${k}_{s,i}$ was considered. Results for detectors from the second batch show that, if the fluorescence signal is corrected by k s , i ${k}_{s,i}$ , the differences in the predicted L E T H 2 O $LE{T}_{{H}_2O}$ with respect to the reference set are reduced from 55%, 141%, 41% and 186% to 4.2%, 6.5%, 5.0% and 11.0%, for protons, 4 He-, 12 C- and 16 O-ions, respectively. The blind tests showed that it is possible to measure the track- and dose-average L E T H 2 O $LE{T}_{{H}_2O}$ with an accuracy of 0.3%, 16% and 9.6% and 1.7%, 28% and 30% for protons, 12 C-ions and mixed beams, respectively. On average, the combined uncertainty of the measured L E T H 2 O $LE{T}_{{H}_2O}$ was 11%, 13%, 21% and 26% for protons, 4 He-, 12 C- and 16 O-ions, respectively. These values were increased by a mean factor of 2.0 when k s , i ${k}_{s,i}$ was not applied.We have demonstrated for the first time that alpha particles can be used to derive a detector-specific sensitivity correction factor. The proposed methodology allows to measure LET spectra using FNTD-technology, with a degree of accuracy and precision unreachable before with sole experimental approaches . This article is protected by copyright. All rights reserved.
Keyword(s): LET spectra ; Proton/Ion-beam therapy ; fluorescent nuclear track detectors
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