Ranges of protons in biological targets

Pavlovič, Márius; Hammerle, Andreas

doi:10.1515/jee-2017-0043

Journal of Electrical Engineering

2017

DOI: 10.1515/jee-2017-0043

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Ranges of protons in biological targets

Márius Pavlovič

Andreas Hammerle

Abstract: The paper introduces a simple fitting function for quick assessment of proton ranges in biological targets and human tissues. The function has been found by fitting an extensive data set of Monte Carlo proton ranges obtained with the aid of the SRIM-2013 code. The data has been collected for 28 different targets at 8 energies in the interval from 60 MeV to 220 MeV. The paper shows that at a given kinetic proton-beam energy, the Monte Carlo ranges can be satisfactorily fitted by a power function that depends so… Show more

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2024

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Investigation of FLUKA Monte Carlo code to study the influence of degrader and initial proton energy in the Bragg peak position

Zeghari,

Bouzekraoui,

Bahhous

et al. 2024

Polish Journal of Medical Physics and Engineering

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Introduction: In recent times, numerous leading global societies have endeavored to advance proton therapy technology with the aim of making it universally accessible. The goal is to offer proton therapy to all cancer patients who stand to benefit from it, thereby enhancing their overall quality of life. This shared objective unites radiation oncologists, medical physicists, radiotherapists, and hospital directors worldwide. The introduction of proton therapy systems, coupled with adjustments to the momentum analysis system, holds potential clinical benefits. Material and Methods: The momentum analysis system typically modifies the energy of the clinical proton beam, influencing the shape and position of the Bragg peak. FLUKA, a Monte Carlo-based software, was employed to simulate various beam setups by directing the proton beam into a water phantom. The resulting Bragg peaks were analyzed and compared with those from different setup simulations. Results: The findings indicate that the Bragg peak undergoes changes in a proton therapy system, both with and without a modulator, across all potential tumor depths. The results demonstrate that the position of the Bragg peak can vary from Z = 31.4 cm for deep tumors such as prostate to Z = 2.6 cm for spinal axis tumors, solely by adjusting the modulator depth from ΔZmodulator = 5 to ΔZmodulator = 30 cm for an energy level of 250 MeV, without altering the proton beam energies. Conclusion: The investigation of these results plays a potential dosimetric consequence, especially for clinics interested in acquiring such a proton therapy system for treating and managing tumors at varying depths.

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Investigation of FLUKA Monte Carlo code to study the influence of degrader and initial proton energy in the Bragg peak position

Zeghari,

Bouzekraoui,

Bahhous

et al. 2024

Polish Journal of Medical Physics and Engineering

View full text Add to dashboard Cite

show abstract

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Ranges of protons in biological targets

Cited by 1 publication

References 26 publications

Investigation of FLUKA Monte Carlo code to study the influence of degrader and initial proton energy in the Bragg peak position

Investigation of FLUKA Monte Carlo code to study the influence of degrader and initial proton energy in the Bragg peak position

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