In:
Physics in Medicine & Biology, IOP Publishing, Vol. 66, No. 21 ( 2021-11-07), p. 21NT02-
Kurzfassung:
Objective: Proton range uncertainties can compromise the effectiveness of proton therapy treatments. Water equivalent path length (WEPL) assessment by flat panel detector proton radiography (FP-PR) can provide means of range uncertainty detection. Since WEPL accuracy intrinsically relies on the FP-PR calibration parameters, the purpose of this study is to establish an optimal calibration procedure that ensures high accuracy of WEPL measurements. To that end, several calibration settings were investigated. Approach: FP-PR calibration datasets were obtained simulating PR fields with different proton energies, directed towards water-equivalent material slabs of increasing thickness. The parameters investigated were the spacing between energy layers (Δ E ) and the increment in thickness of the water-equivalent material slabs (Δ X ) used for calibration. 30 calibrations were simulated, as a result of combining Δ E = 9, 7, 5, 3, 1 MeV and Δ X = 10, 8, 5, 3, 2, 1 mm. FP-PRs through a CIRS electron density phantom were simulated, and WEPL images corresponding to each calibration were obtained. Ground truth WEPL values were provided by range probing multi-layer ionization chamber simulations on each insert of the phantom. Relative WEPL errors between FP-PR simulations and ground truth were calculated for each insert. Mean relative WEPL errors and standard deviations across all inserts were computed for WEPL images obtained with each calibration. Main results: Large mean and standard deviations were found in WEPL images obtained with large Δ E values (Δ E = 9 or 7 MeV), for any Δ X . WEPL images obtained with Δ E ≤ 5 MeV and Δ X ≤ 5 mm resulted in a WEPL accuracy with mean values within ±0.5% and standard deviations around 1%. Significance: An optimal FP calibration in the framework of this study was established, characterized by 3 MeV ≤ Δ E ≤ 5 MeV and 2 mm ≤ Δ X ≤ 5 mm. Within these boundaries, highly accurate WEPL acquisitions using FP-PR are feasible and practical, holding the potential to assist future online range verification quality control procedures.
Materialart:
Online-Ressource
ISSN:
0031-9155
,
1361-6560
DOI:
10.1088/1361-6560/ac2c4f
Sprache:
Unbekannt
Verlag:
IOP Publishing
Publikationsdatum:
2021
ZDB Id:
1473501-5
SSG:
12
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