Said Elboukhari scite author profile

The purpose from this work is the investigation for dosimetric parameters of the two new BEBIG sources, 60Co and 192Ir used in high-dose-rate brachytherapy. According to the full report of AAPM and ESTRO; air-kerma strength, dose rate constant, radial dose function, and 2D along & away dose rates tables were calculated. Moreover, a comparison was made between the calculated dosimetric parameters for the HDR sources simulated in this study. We used the MCN-PX to investigate the dosimetric parameters of both sources. The geometry of each source was defined in the input program of MCNPX, and each simulation was performed with an appropriate number of particle histories to get an acceptable Type A statistical uncertainty. The results obtained were tabulated and presented in graphical format; these results show a good agreement with other previous studies. The comparison made between the two simulated sources in this work shows a minor difference observed in the generated 2D along & away tables for complementing the commissioning of these sources within a TPS. This difference is considered negligible by the clinical specialists.

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Dosimetric investigation for the new BEBIG cobalt 60 source used in brachytherapy using Monte Carlo N-Particles eXtended code (MCNPX)

Elboukhari¹,

Yamni²,

Ouabi³

et al. 2020

IOP Conf. Ser.: Mater. Sci. Eng.

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The purpose of this work is to calculate the parameters of the 60Co-source model: Co0.A86 newly introduced to the HDR brachytherapy, and to validate the MCNPX code in Monte Carlo investigation, the radial dose function, and function of anisotropy are calculated in water as recommended in the report of HEBD working group (AAPM&ESTRO). The results obtained in this study agree will with the data published in previous studies.

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Investigation of the dosimetric parameters of 125I BEBIG IsoSeed® I25.S06 source: GATE 8.2 Monte Carlo code

Ait-Mlouk

Khalis

Asnaoui

et al. 2022

Applied Radiation and Isotopes

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A Monte Carlo Dosimetric Parameters of the 60Co High Dose Rate Brachytherapy and Investigation of TG43 Dose Accuracy in Different Media Using GATE v8.2 Code

Ait-Mlouk

Khalis²,

Ouabi³

et al. 2021

Moscow Univ. Phys.

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Said Elboukhari

Technical note: Dosimetric study for the new BEBIG 60Co HDR source used in brachytherapy in water and different media using Monte Carlo N-Particle eXtended code

Comparative Dosimetric Study between ⁶⁰Co and ¹⁹²Ir BEBIG High Dose Rate Sources, Used in Brachytherapy, Using Monte Carlo N-Particle Extended

Dosimetric investigation for the new BEBIG cobalt 60 source used in brachytherapy using Monte Carlo N-Particles eXtended code (MCNPX)

Investigation of the dosimetric parameters of 125I BEBIG IsoSeed® I25.S06 source: GATE 8.2 Monte Carlo code

A Monte Carlo Dosimetric Parameters of the 60Co High Dose Rate Brachytherapy and Investigation of TG43 Dose Accuracy in Different Media Using GATE v8.2 Code

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Said Elboukhari

Technical note: Dosimetric study for the new BEBIG 60Co HDR source used in brachytherapy in water and different media using Monte Carlo N-Particle eXtended code

Comparative Dosimetric Study between 60Co and 192Ir BEBIG High Dose Rate Sources, Used in Brachytherapy, Using Monte Carlo N-Particle Extended

Dosimetric investigation for the new BEBIG cobalt 60 source used in brachytherapy using Monte Carlo N-Particles eXtended code (MCNPX)

Investigation of the dosimetric parameters of 125I BEBIG IsoSeed® I25.S06 source: GATE 8.2 Monte Carlo code

A Monte Carlo Dosimetric Parameters of the 60Co High Dose Rate Brachytherapy and Investigation of TG43 Dose Accuracy in Different Media Using GATE v8.2 Code

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Comparative Dosimetric Study between ⁶⁰Co and ¹⁹²Ir BEBIG High Dose Rate Sources, Used in Brachytherapy, Using Monte Carlo N-Particle Extended