G. Gualdrini scite author profile

The recent statement on tissue reactions issued by the International Commission on Radiological Protection in April 2011 recommends a very significant reduction in the equivalent dose annual limit for the eye lens from 150 to 20 mSv y(-1); this has stimulated a lot of interest in eye lens dosimetry in the radiation protection community. Until now no conversion coefficients were available for the operational quantity Hp(3) for neutrons. The scope of the present work was to extend previous evaluations of H*(10) and Hp(10) performed at the PTB in 1995 to provide also Hp(3) data for neutrons. The present work is also intended to complete the studies carried out on photons during the last 4 y within the European Union-funded ORAMED (optimisation of radiation protection for medical staff) project.

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An improved MCNP version of the NORMAN voxel phantom for dosimetry studies

Ferrari

Gualdrini

2005

Phys. Med. Biol.

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In recent years voxel phantoms have been developed on the basis of tomographic data of real individuals allowing new sets of conversion coefficients to be calculated for effective dose. Progress in radiation studies brought ICRP to revise its recommendations and a new report, already circulated in draft form, is expected to change the actual effective dose evaluation method. In the present paper the voxel phantom NORMAN developed at HPA, formerly NRPB, was employed with MCNP Monte Carlo code. A modified version of the phantom, NORMAN-05, was developed to take into account the new set of tissues and weighting factors proposed in the cited ICRP draft. Air kerma to organ equivalent dose and effective dose conversion coefficients for antero-posterior and postero-anterior parallel photon beam irradiations, from 20 keV to 10 MeV, have been calculated and compared with data obtained in other laboratories using different numerical phantoms. Obtained results are in good agreement with published data with some differences for the effective dose calculated employing the proposed new tissue weighting factors set in comparison with previous evaluations based on the ICRP 60 report.

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A new cylindrical phantom for eye lens dosimetry development

Gualdrini

Mariotti

Wach³

et al. 2011

Radiation Measurements

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G. Gualdrini

Measurements of eye lens doses in interventional radiology and cardiology: Final results of the ORAMED project

International Workshop on Optimization of Radiation Protection of Medical Staff, ORAMED 2011

The ORAMED Project: Optimisation of Radiation Protection for Medical Staff

Hand exposure in diagnostic nuclear medicine with 18F- and 99mTc-labelled radiopharmaceuticals - Results of the ORAMED project

The new EYE-D™ dosemeter for measurements of HP(3) for medical staff

Fluence to Hp(3) conversion coefficients for neutrons from thermal to 15 MeV

An improved MCNP version of the NORMAN voxel phantom for dosimetry studies

A new cylindrical phantom for eye lens dosimetry development

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