Your search keyword '"Penner, Crystal"' showing total 2 results

1. Multi-Point Sensing via Organic Optical Fibres for FLASH Proton Therapy.

Author

Penner, Crystal, Usherovich, Samuel, Andru, Sophia, Bélanger-Champagne, Camille, Hohnholz, Janina, Stoeber, Boris, Duzenli, Cheryl, and Hoehr, Cornelia

Subjects

PROTON beams, PROTON therapy, IMAGING phantoms, FIBERS, HIGH dose rate brachytherapy, MONTE Carlo method, SPATIAL ability, RADIATION damage

Abstract

Optical fibres are gaining popularity for relative dosimetry in proton therapy due to their spatial resolution and ability for near real-time acquisition. For FLASH proton therapy, these fibres need to handle higher dose rates and larger doses than for conventional proton dose rates. We developed a multi-point fibre sensor embedded in a 3D-printed phantom which can measure the profile of a FLASH proton beam. Seven PMMA fibres of 1 mm diameter were embedded in a custom 3D-printed plastic phantom of the same density as the fibres. The phantom was placed in a proton beam with FLASH dose rates at the TRIUMF Proton Therapy Research Centre (PTRC). The sensor was exposed to different proton energies, 13.5 MeV, 19 MeV and 40.4 MeV, achieved by adding PMMA bolus in front of the phantom and three different beam currents, varying the dose rates from 7.5 to 101 Gy/s. The array was able to record beam profiles in both transverse and axial directions in relative agreement with measurements from EBT-XD radiochromic films (transverse) and Monte Carlo simulations (axial). A decrease in light output over time was observed, which might be caused by radiation damage in the matrix of the fibre and characterised by an exponential decay function. [ABSTRACT FROM AUTHOR]

Published

2024

2. Dosimetric Application of Phosphorus Doped Fibre for X-ray and Proton Therapy.

Author

Olusoji, Olugbenga J., Penner, Crystal, Bélanger-Champagne, Camille, Kam, Wern, Martyn, Michael, Woulfe, Peter, Hoehr, Cornelia, and O'Keeffe, Sinead

Subjects

*LINEAR energy transfer, *PROTON therapy, *RADIATION dosimetry, *X-rays, *FIBERS, *PHOSPHORUS, *PHOTON beams, *PROTON beams

Abstract

Phosphorous-doped silica optical fibres with a core diameter of 4 µm were tested in X-ray and proton fields for application in cancer therapy dosimetry. Specifically, the radiation-induced attenuation was investigated in terms of linearity in deposited dose in 15 MV and 6 MV photons and 74 MeV protons, as well as Bragg-peak detection along the proton track. Fibres were found to demonstrate linear relative dose response in both radiation modalities, but possible saturation did occur at the high linear energy transfer of the Bragg peak. This demonstrates the possibility to use these fibres as a relative dosimeter for radiation therapy applications. [ABSTRACT FROM AUTHOR]

Published

2021