S. Bosi scite author profile

Based on the results of this study, the new PRESAGE formulations with lower halogen content are more radiologically water equivalent overall than the original formulation. This indicates that the new PRESAGE formulations are better suited to clinical applications and are more accurate dosimeters and phantoms than the original PRESAGE formulation. While correction factors are still needed to convert the dose measured by the dosimeter to an absorbed dose in water in the kilovoltage energy range, these correction factors are considerably smaller for the new PRESAGE formulations compared to the original PRESAGE and the existing polymer gel dosimeters.

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Initial investigation of a novel light-scattering gel phantom for evaluation of optical CT scanners for radiotherapy gel dosimetry

Bosi¹,

Naseri²,

Puran³

et al. 2007

Phys. Med. Biol.

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There is a need for stable gel materials for phantoms used to validate optical computerized tomography (CT) scanners used in conjunction with radiation-induced polymerizing gel dosimeters. Phantoms based on addition of light-absorbing dyes to gelatine to simulate gel dosimeters have been employed. However, to more accurately simulate polymerizing gels one requires phantoms that employ light-scattering colloidal suspensions added to the gel. In this paper, we present the initial results of using an optical CT scanner to evaluate a novel phantom in which radiation-exposed polymer gels are simulated by the addition of colloidal suspensions of varying turbidity. The phantom may be useful as a calibration transfer standard for polymer gel dosimeters. The tests reveal some phenomena peculiar to light-scattering gels that need to be taken into account when calibrating polymer gel dosimeters.

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Monte Carlo high-field transport in degenerate GaAs

Bosi¹,

Jacoboni²

1976

J. Phys. C: Solid State Phys.

102

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S. Bosi

Hole-drift velocity in natural diamond

Investigation of radiological properties and water equivalency of PRESAGE^® dosimeters

Initial investigation of a novel light-scattering gel phantom for evaluation of optical CT scanners for radiotherapy gel dosimetry

Monte Carlo high-field transport in degenerate GaAs

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S. Bosi

Hole-drift velocity in natural diamond

Investigation of radiological properties and water equivalency of PRESAGE® dosimeters

Initial investigation of a novel light-scattering gel phantom for evaluation of optical CT scanners for radiotherapy gel dosimetry

Monte Carlo high-field transport in degenerate GaAs

Contact Info

Product

Resources

About

Investigation of radiological properties and water equivalency of PRESAGE^® dosimeters