Cássio Costa Ferreira scite author profile

To study the doses received by patient submitted to ionizing radiation, several materials are used to simulate the human tissue and organs. The total mass attenuation coefficient is a reasonable way for evaluating the usage in dosimetry of these materials. The total mass attenuation coefficient is determined by photon energy and constituent elements of the material. Currently, the human phantoms are composed by a unique material that presents characteristics similar to the mean proprieties of the different tissues within the region. Therefore, the phantoms are usually homogeneous and filled with a material similar to soft tissue. We studied ten materials used as soft tissue-simulating. These materials were named: bolus, nylon ® , orange articulation wax, red articulation wax, PMMA, modelling clay, bee wax, paraffin 1, paraffin 2 and pitch. The objective of this study was to verify the best material to simulate the human cerebral tissue. We determined the elementary composition, mass density and, therefore, calculated the total mass attenuation coefficient of each material. The results were compared to the values established by the International Commission on Radiation Units and Measurements -ICRU, report n° 44, and by the International Commission on Radiation Protection -ICRP, report n° 89, to determine the best material for this energy interval. These results indicate that new head phantoms can be constructed with nylon ® .

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Evaluation of tissue-equivalent materials to be used as human brain tissue substitute in dosimetry for diagnostic radiology

Ferreira

Filho

Vieira

et al. 2010

Nuclear Instruments and Methods in Physics Research Section B:

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A way forward for the development of an exposure computational model to computed tomography dosimetry

Ferreira

Galvão

Vieira

et al. 2011

Nuclear Instruments and Methods in Physics Research Section B:

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Effective and equivalent doses for CT head examinations calculated using the voxelized phantoms MASH and FASH

Ferreira

Folly

Vieira

et al. 2011

Nuclear Instruments and Methods in Physics Research Section B:

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