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Auteurs principaux: Frick, Stephan, Thorwarth, Daniela, Hackel, Thomas, Kapsch, Ralf-Peter
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2505.05144
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author Frick, Stephan
Thorwarth, Daniela
Hackel, Thomas
Kapsch, Ralf-Peter
author_facet Frick, Stephan
Thorwarth, Daniela
Hackel, Thomas
Kapsch, Ralf-Peter
contents In recent literature, the output correction factor in a 1.5T magnetic field, kB,Q,Clin, were determined only for the central axis (CAX), including our last work. At an MR-linac, the determination of the CAX position relies on e.g. MV-imaging and is at small field sizes located at the penumbra, whereas the maximum of the lateral profile (MAX) position is directly measurable. This study determined kB,Q,Ratio - the influence of the magnetic field on the output correction factor without a magnetic field, kQ,Clin - and kB,Q,Clin for both CAX and MAX fully experimentally for two MR-optimized ionization chambers, their conventional counterparts, and a solid-state detector. Additionally, the uncertainty due to intra-type variation for tabulated kB,Q,Clin was estimated. Measurements were conducted using an experimental setup consisting of a mobile electromagnet positioned in front of a standard clinical linac (6MV, 1.5T). Intra-type variation for the solid-state detector was assessed using 4 detectors. The change of absorbed dose to water was determined with alanine. Within the uncertainty, no difference in kB,Q,Ratio was observed between the MR-optimized chambers and their conventional counterparts. For the solid-state detector, no difference between CAX and MAX was observed. For all detectors, kB,Q,Clin remained constant down to a field size of 2.5x2.5cm2. At smaller field sizes, for MAX and for all detectors, kB,Q,Ratio decreased linearly. The maximum intra-type variation standard uncertainty was 0.009 for the smallest field size, with and without a magnetic field. In summary, kB,Q,Ratio and kB,Q,Clin, including its uncertainty, was successfully determined for five detectors at both CAX and MAX. For ionization chambers, kB,Q,Clin is lower at MAX, whereas for the solid-state detector, it remains the same. For the tabulated correction factors uncertainty, intra-type variation must be considered.
format Preprint
id arxiv_https___arxiv_org_abs_2505_05144
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Output correction factors in a 1.5 T magnetic field determined at the central axis and at the lateral dose maximum for five detectors using alanine
Frick, Stephan
Thorwarth, Daniela
Hackel, Thomas
Kapsch, Ralf-Peter
Medical Physics
Instrumentation and Detectors
In recent literature, the output correction factor in a 1.5T magnetic field, kB,Q,Clin, were determined only for the central axis (CAX), including our last work. At an MR-linac, the determination of the CAX position relies on e.g. MV-imaging and is at small field sizes located at the penumbra, whereas the maximum of the lateral profile (MAX) position is directly measurable. This study determined kB,Q,Ratio - the influence of the magnetic field on the output correction factor without a magnetic field, kQ,Clin - and kB,Q,Clin for both CAX and MAX fully experimentally for two MR-optimized ionization chambers, their conventional counterparts, and a solid-state detector. Additionally, the uncertainty due to intra-type variation for tabulated kB,Q,Clin was estimated. Measurements were conducted using an experimental setup consisting of a mobile electromagnet positioned in front of a standard clinical linac (6MV, 1.5T). Intra-type variation for the solid-state detector was assessed using 4 detectors. The change of absorbed dose to water was determined with alanine. Within the uncertainty, no difference in kB,Q,Ratio was observed between the MR-optimized chambers and their conventional counterparts. For the solid-state detector, no difference between CAX and MAX was observed. For all detectors, kB,Q,Clin remained constant down to a field size of 2.5x2.5cm2. At smaller field sizes, for MAX and for all detectors, kB,Q,Ratio decreased linearly. The maximum intra-type variation standard uncertainty was 0.009 for the smallest field size, with and without a magnetic field. In summary, kB,Q,Ratio and kB,Q,Clin, including its uncertainty, was successfully determined for five detectors at both CAX and MAX. For ionization chambers, kB,Q,Clin is lower at MAX, whereas for the solid-state detector, it remains the same. For the tabulated correction factors uncertainty, intra-type variation must be considered.
title Output correction factors in a 1.5 T magnetic field determined at the central axis and at the lateral dose maximum for five detectors using alanine
topic Medical Physics
Instrumentation and Detectors
url https://arxiv.org/abs/2505.05144