J. Bento scite author profile

J. Bento

5Publications

35Citation Statements Received

0Citation Statements Given

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Affiliations

TARH (Portugal), University of Coimbra

Publications

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Study of nuclear medicine practices in Portugal from an internal dosimetry perspective

Bento

Teles

Neves

et al. 2011

Radiation Protection Dosimetry

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Nuclear medicine practices involve the handling of a wide range of pharmaceuticals labelled with different radionuclides, for diagnostic and therapeutic purposes. This work intends to evaluate the potential risks of internal contamination of nuclear medicine staff in several Portuguese nuclear medicine services and to conclude about the requirement of a routine internal monitoring. A methodology proposed by the International Atomic Energy Agency (IAEA), providing a set of criteria to determine the need, or not, for an internal monitoring programme, was applied. The evaluation of the risk of internal contaminations in a given set of working conditions is based on the type and amount of radionuclides being handled, as well as the safety conditions with which they are manipulated. The application of the IAEA criteria showed that 73.1% of all the workers included in this study should be integrated in a routine monitoring programme for internal contaminations; more specifically, 100% of workers performing radioimmunoassay techniques should be monitored. This study suggests that a routine monitoring programme for internal exposures should be implemented in Portugal for most nuclear medicine workers.

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Monte Carlo simulation of the movement and detection efficiency of a whole-body counting system using a BOMAB phantom

Bento

Barros

Teles

et al. 2011

Radiation Protection Dosimetry

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This study reports on the computational analysis and experimental calibration of the whole-body counting detection equipment at the Nuclear and Technological Institute (ITN) in Portugal. Two state-of-the-art Monte Carlo simulation programmes were used for this purpose: PENELOPE and MCNPX. This computational work was undertaken as part of a new set of experimental calibrations, which improved the quality standards of this study's WBC system. In these calibrations, a BOMAB phantom, one of the industry standards phantoms for WBC calibrations in internal dosimetry applications, was used. Both the BOMAB phantom and the detection system were accurately implemented in the Monte Carlo codes. The whole-body counter at ITN possesses a moving detector system, which poses a challenge for Monte Carlo simulations, as most codes only accept static configurations. The continuous detector movement was approximately described in the simulations by averaging several discrete positions of the detector throughout the movement. The computational efficiency values obtained with the two Monte Carlos codes have deviations of less than 3.2 %, and the obtained deviations between experimental and computational efficiencies are less than 5 %. This work contributes to demonstrate the great effectiveness of using computational tools for understanding the calibration of radiation detection systems used for in vivo monitoring.

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Monte Carlo modelling for the in vivo lung monitoring of enriched uranium: Results of an international comparison

Broggio

Bento

Caldeira

et al. 2012

Radiation Measurements

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Parameter optimization of a planar BEGe detector using Monte Carlo simulations

Luís

Bento

Carvalhal

et al. 2010

Nuclear Instruments and Methods in Physics Research Section A:

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TLD measurements and Monte Carlo simulations for glandular dose and scatter fraction assessment in mammography: A comparative study

Maria

Barros

Bento

et al. 2011

Radiation Measurements

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J. Bento

Study of nuclear medicine practices in Portugal from an internal dosimetry perspective

Monte Carlo simulation of the movement and detection efficiency of a whole-body counting system using a BOMAB phantom

Monte Carlo modelling for the in vivo lung monitoring of enriched uranium: Results of an international comparison

Parameter optimization of a planar BEGe detector using Monte Carlo simulations

TLD measurements and Monte Carlo simulations for glandular dose and scatter fraction assessment in mammography: A comparative study

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