A novel approach for proton therapy pencil beam scanning patient specific quality assurance using an integrated detector system and 3D dose reconstruction

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A novel approach for proton therapy pencil beam scanning patient specific quality assurance using an integrated detector system and 3D dose reconstruction

Joseph J. Bateman et al · Frontiers Media S.A · 2025

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Autor / responsable

Joseph J. Bateman et al

Editorial

Frontiers Media S.A

Año

2025

ISSN

2234-943X

ISSN

2234-943X

Idioma

eng

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PurposeCurrent proton beam therapy patient-specific quality assurance (PSQA) methods rely on time-intensive phantom measurements or machine-reported parameters without independent verification. This work presents an integrated detector system for phantom-less Pencil Beam Scanning (PBS) PSQA, providing independent spot-by-spot measurements of all critical beam parameters and 3D dose reconstruction.MethodsThe integrated detector combines three separate systems: a scintillator range telescope for range and energy measurement; a CMOS pixel sensor for spot position and size verification; and a Transmission Calorimeter (TC) for beam intensity measurements. Measured parameters feed Monte Carlo simulations to reconstruct 3D dose distributions for comparison with treatment planning predictions. Validation was performed at UCLH using single spot position spread out Bragg Peak (SOBP) and 5×5×10 spot box field configurations.ResultsEnergy values obtained from range measurements showed strong correlation with DICOM values (R2> 0.998) with an accuracy of between 2.17 mm and 1.23 mm for different beam deliveries. CMOS pixel sensor measurements succeeded for single spot fields but experienced saturation at higher intensities and incomplete coverage for the larger box field. The TC demonstrated excellent dose linearity (R2 = 1.000). Monte Carlo reconstructions agreed well with reference simulations for longitudinal profiles, though lateral reconstructions proved challenging with 77% gamma pass rates (2%/2mm) for the box field.DiscussionThis proof-of-concept demonstrates feasibility of independent beam parameter verification for PBS PSQA while maintaining patient geometry. The approach offers advantages over current methods but requires resolution of energy calibration offsets and detector limitations before clinical implementation. Future work will address these challenges and expand validation to clinical treatment plans.

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APA 7

al, J. J. B. E. (2025). A novel approach for proton therapy pencil beam scanning patient specific quality assurance using an integrated detector system and 3D dose reconstruction. https://doi.org/10.3389/fonc.2025.1677439

MLA

al, Joseph J. Bateman et. "A novel approach for proton therapy pencil beam scanning patient specific quality assurance using an integrated detector system and 3D dose reconstruction." 2025. https://doi.org/10.3389/fonc.2025.1677439.

Chicago

al, Joseph J. Bateman et. 2025. "A novel approach for proton therapy pencil beam scanning patient specific quality assurance using an integrated detector system and 3D dose reconstruction.". https://doi.org/10.3389/fonc.2025.1677439.

Harvard

al, J. J. B. E. 2025, A novel approach for proton therapy pencil beam scanning patient specific quality assurance using an integrated detector system and 3D dose reconstruction, Frontiers Media S.A, available at: https://doi.org/10.3389/fonc.2025.1677439 [Accessed 30 Jun. 2026].

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Título: A novel approach for proton therapy pencil beam scanning patient specific quality assurance using an integrated detector system and 3D dose reconstruction

Autor / colaboradores: Joseph J. Bateman et al

Editorial: Frontiers Media S.A

Año de publicación: 2025

ISSN: 2234-943X

ISSN: 2234-943X

Idioma: eng

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proton therapy; pencil beam scanning; patient-specific quality assurance; integrated detector system; 3D dose reconstruction; Pencil Beam Scanning (PBS) PSQA