2018
DOI: 10.1016/j.ejmp.2018.06.636
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An overview of recent developments in FLUKA PET tools

Abstract: The new developments of the FLUKA Positron-Emission-Tomography (PET) tools are detailed. FLUKA is a fully integrated Monte Carlo (MC) particle transport code, used for an extended range of applications, including Medical Physics. Recently, it provided the medical community with dedicated simulation tools for clinical applications, including the PET simulation package. PET is a well-established imaging technique in nuclear medicine, and a promising method for clinical in vivo treatment verification in hadronthe… Show more

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Cited by 22 publications
(20 citation statements)
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“…Recent developments in the FLUKA code have enhanced the accuracy of the models governing ion transport and interactions, resulting in an improved reproduction of the fragmentation mechanisms and thus a more reliable dosimetry and imaging estimate ( 48 – 50 ). Furthermore, the recently developed FLUKA PET tools enable the simulation of a PET scanner performance as well as signal acquisition throughout and after the irradiation, providing a more direct assessment of the imaging gain ( 51 , 52 ).…”
Section: Motivation For Carbon-11 Beams: Overview and Modelingmentioning
confidence: 99%
See 1 more Smart Citation
“…Recent developments in the FLUKA code have enhanced the accuracy of the models governing ion transport and interactions, resulting in an improved reproduction of the fragmentation mechanisms and thus a more reliable dosimetry and imaging estimate ( 48 – 50 ). Furthermore, the recently developed FLUKA PET tools enable the simulation of a PET scanner performance as well as signal acquisition throughout and after the irradiation, providing a more direct assessment of the imaging gain ( 51 , 52 ).…”
Section: Motivation For Carbon-11 Beams: Overview and Modelingmentioning
confidence: 99%
“…A recent example of image performance evaluation used a SIEMENS Biograph mCT PET scanner from Heidelberg Ion Therapy Center as model, as well as a synchrotron-like irradiation with either 11 C or 12 C ions, simulating SOBP of comparable dose and range delivered to an antropomorphic head voxelized structure ( 52 ).…”
Section: Motivation For Carbon-11 Beams: Overview and Modelingmentioning
confidence: 99%
“…Using RIB, every primary ion will decay, essentially only at the end of the range, with the decay time always much longer than the travel time in the accelerator and in the patient's body. RIB would improve the count rate ∼10 × [55], reduce the shift between measured activity and dose (Figure 2), and mitigate the washout blur of the image (Figure 3) with short-lived isotopes and in-beam acquisition. Heavy ion therapy is nowadays only performed using carbon ions, because with heavier ions, the toxicity in normal tissues can be unacceptable.…”
Section: Rib In Radiotherapymentioning
confidence: 99%
“…The experimental set-up geometry is reproduced with the FLUKA MC simulation framework [35,36]. The simulation follows the effective proton delivered from the accelerator, its interaction with the target, the production of residual nuclei, the β+ decay and tracks the positron emission and its annihilation.…”
Section: E Monte Carlo Simulationsmentioning
confidence: 99%