Dose profiles and x-ray energy optimization for microbeam radiation therapy by high-dose, high resolution dosimetry using Sm-doped fluoroaluminate glass plates and Monte Carlo transport simulation

Chicilo, Farley; Hanson, A.L.; Geisler, Fred H.; Belev, George; Edgar, A.; Ramaswami, Kieran; Chapman, Dean; Kasap, S. O.

doi:10.1088/1361-6560/ab7361

Cited by 8 publications

(4 citation statements)

References 64 publications

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“…After realignment, the peak shape became identical to that of SPring-8. These results, as well as a recent extended work, 48) indicate that the dose contrast is very sensitive to the collimator alignment while the present technique is a very powerful tool to detect the error and evaluate the beam quality.…”

Section: Applications In Microbeam Radiation Therapy (Mrt)supporting

confidence: 68%

Novel radio-photoluminescence materials and applications

Okada

2021

J. Ceram. Soc. Japan

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Radio-photoluminescence (RPL) is a phenomenon whereby a new luminescent centre is generated in a material by the interaction of an ionizing radiation with the medium. Despite the usefulness of RPL, e.g. in radiation measurements, there are only a limited number of RPL materials available today, which limits our understanding of the phenomenon as well as extending its use for new applications. In recent investigations, a large number of new RPL material systems have been proposed for radiation measurements. In particular, Sm-based RPL is one of the most intensively studied alternative systems, which shows RPL properties owing to the intravalence reduction of the Sm ion (Sm 3+ ¼ Sm 2+ ) induced by ionizing radiation. The generated Sm 2+ , as well as Sm 3+ , acts as a luminescent centre and shows photoluminescence, typically around 700 nm. This approach has enabled us to explore a wider range of material choices and to find a new application of RPL. An example is microbeam radiation therapy (MRT), which requires the measurement of extremely large radiation dose distributions at a microscopic scale. Such a new class of RPL is not only limited to Sm-based materials but also to those doped with other rare earth ions (e.g., Eu and Yb) and undoped materials.

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Section: Applications In Microbeam Radiation Therapy (Mrt)supporting

confidence: 68%

Novel radio-photoluminescence materials and applications

Okada

2021

J. Ceram. Soc. Japan

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“…Compared with the spectrum of common X-rays currently used in clinical practice, synchrotron radiation has a broad and continuous energy spectrum with tens of thousands of times higher flux, which could be of great benefit to some areas of medicine. Leveraging synchrotron radiation facilities on medical applications (computed tomography or radiotherapy) has been extensively proposed by researchers all over the world (Chicilo et al, 2020;Livingstone et al, 2018;Cornelius et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Multi-objective genetic algorithm for synchrotron radiation beamline optimization

Zhang¹,

Qi²,

Wang³

2023

J Synchrotron Radiat

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In beamline design, there are many floating parameters that need to be tuned; manual optimization is time-consuming and laborious work, and it is also difficult to obtain well optimized results. Moreover, there are always several objectives that need to be considered and optimized at the same time, making the problem more complicated. For example, asking for both the flux and energy to be as large as possible is a usual requirement, but the changing trends of these two variables are often contradictory. In this study, a novel optimization method based on a multi-objective genetic algorithm is introduced, the first attempt to optimize a beamline with multiple objectives. In order to verify this method, beamline ID17 of the European Synchrotron Radiation Facility (ESRF) is taken as an example for simulation, with energy and dose rate as objectives. The result shows that this method can be effective for beamline optimization, and an optimal solution set can be obtained within 30 generations. For the solutions whose objectives are both improved compared with those of ESRF beamline ID17, the maximums of energy and dose rate increase by around 7% and 20%, respectively.

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“…3. [21][22][23][24][25][26][27] Al 2 O 3 :C,Mg was also considered for this type of application; however, the dynamic range was not sufficient due to insufficient sensitivity above 50 Gy, 28) although the spatial resolution was sufficiently high with a confocal microscope reader.…”

Section: Sm-doped Materialsmentioning

confidence: 99%

Recent advances in radiophotoluminescence materials for luminescence dosimetry

Okada

Koguchi²,

Yanagida

et al. 2022

Jpn. J. Appl. Phys.

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Radiophotoluminescence (RPL) is a phenomenon in which a luminescence centre is formed in a medium upon interaction with ionizing radiation. The RPL is observed by a conventional photoluminescence (PL) technique, and the PL intensity is proportional to the dose. With the latter feature, the RPL has found successful applications in personnel and environmental dosimetry. However, the conventional materials considered for radiation measurements may be limited to Ag-doped phosphate glass, LiF, and Al2O3:C,Mg. The recent research works, however, have found a number of additional RPL materials for luminescence dosimetry. The aim of the present paper is to review the series of newly reported RPL materials and potential applications in dosimetry.

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Dose profiles and x-ray energy optimization for microbeam radiation therapy by high-dose, high resolution dosimetry using Sm-doped fluoroaluminate glass plates and Monte Carlo transport simulation

Cited by 8 publications

References 64 publications

Novel radio-photoluminescence materials and applications

Novel radio-photoluminescence materials and applications

Multi-objective genetic algorithm for synchrotron radiation beamline optimization

Recent advances in radiophotoluminescence materials for luminescence dosimetry

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