Scanner uniformity improvements for radiochromic film analysis with matt reflectance backing

Butson, Ethan; Alnawaf, Hani; Yu, Peter K N; Butson, Martin J

doi:10.1007/s13246-011-0086-0

Cited by 24 publications

(13 citation statements)

References 21 publications

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“…To better homogenize the pressure over the scanner, a PMMA slab (21 × 30 × 2 cm 3 ) was positioned on the paper during each scan. The advantage of using a white paper with a stable behavior over time has been discussed in the literature . An average image was obtained and then divided into rectangular regions of interest (ROIs): 21 vertical ROIs (about 1 × 30 cm 2 ) and 29 horizontal ROIs (about 22 × 1 cm 2 ).…”

Section: Methodsmentioning

confidence: 99%

Internal breast dosimetry in mammography: Experimental methods and Monte Carlo validation with a monoenergetic x‐ray beam

et al. 2018

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The calibration procedures and the experimental methodologies proposed lead to good accuracy for internal breast dose estimation. In addition, these procedures can be successfully applied to validate MC codes for breast dosimetry at the local dose level. The agreement among the experimental and MC results not only shows the correctness of the empirical procedures used but also of the simulation parameters.

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Section: Methodsmentioning

confidence: 99%

Internal breast dosimetry in mammography: Experimental methods and Monte Carlo validation with a monoenergetic x‐ray beam

et al. 2018

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“…A piece of EBT3 film (20.32 cm × 25.4 cm dimension) was cut into 50 small pieces with a 1 cm × 2 cm dimension. All the films were placed simultaneously on a white mahjong paper to ensure uniformity in the potential back reflected light [26]. The experiment was conducted during a clear sky between 12:30 pm and 1:45 pm (1 hour and 15 minutes) at the rooftop of School of Physics, Universiti Sains Malaysia.…”

Section: Methodsmentioning

confidence: 99%

Spectroscopy and Light Emitting Diodes Based System in Characterizing External Beam Therapy 3 Films for Solar Ultraviolet Measurement

Shah

Omar

2019

Photonic Sens

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Gafchromic external beam therapy 3 (EBT3) film has widely been used in medical field applications. Principally, the EBT3 film's color gradually changes from light green to darker color under incremental exposures by ionizing or even non-ionizing ultraviolet (UV) radiation. Peak absorbance of the EBT3 film can be used to predict absorbed doses by the film. However, until today, related researches still rely on spectrometers for color analysis of EBT3 films. Hence, this paper presents a comparative analysis between results produced by the spectrometer and a much simpler light-emitting diode-photodiode based system in profiling the color changes of EBT3 films after exposure by solar UV radiation. This work has been conducted on a set of 50 EBT3 samples with incremental solar UV exposure (doses). The wavelength in the red region has the best sensitivity in profiling the color changes of EBT3 films for low solar UV exposure measurement. This study foresees the ability of blue wavelength to profile films with a large range of solar UV exposure. The LED (light emitting diode)-based optical system has produced comparable measurement accuracies to the spectrometer and thus, with a potential for replacing the need for a multipurpose spectroscopy system for simple measurement of light attenuation.

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“…The advantage of using a white paper with a stable behavior over time and no potential effect of temperature or repetitive UV light has been discussed elsewhere. 25,33 Additionally, and for the HP Scanjet G3110, the analysis was completed using a 10 × 10 cm 2 black piece of paper to investigate the impact of film darkness, i.e., variation in the signal to noise ratio, on scanner performance and uniformity. Indeed, larger variations of scan uniformity in the direction perpendicular to the lamp motion axis have been highlighted when darker films were used.…”

Section: C1 Scanner-related Uncertaintymentioning

confidence: 99%

Characterization of XR‐RV3 GafChromic^® films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors

et al. 2015

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The overall uncertainty associated with the use of XR-RV3 films to determine skin dose in the interventional environment can realistically be estimated to be around 20% (k = 1). This uncertainty can be reduced to within 5% if carefully monitoring scanner, film, and fitting-related errors or it can easily increase to over 40% if minimal care is not taken. This work demonstrates the importance of appropriate calibration, reading, fitting, and other film-related and scan-related processes, which will help improve the accuracy of skin dose measurements in interventional procedures.

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Scanner uniformity improvements for radiochromic film analysis with matt reflectance backing

Cited by 24 publications

References 21 publications

Internal breast dosimetry in mammography: Experimental methods and Monte Carlo validation with a monoenergetic x‐ray beam

Internal breast dosimetry in mammography: Experimental methods and Monte Carlo validation with a monoenergetic x‐ray beam

Spectroscopy and Light Emitting Diodes Based System in Characterizing External Beam Therapy 3 Films for Solar Ultraviolet Measurement

Characterization of XR‐RV3 GafChromic^® films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors

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Scanner uniformity improvements for radiochromic film analysis with matt reflectance backing

Cited by 24 publications

References 21 publications

Internal breast dosimetry in mammography: Experimental methods and Monte Carlo validation with a monoenergetic x‐ray beam

Internal breast dosimetry in mammography: Experimental methods and Monte Carlo validation with a monoenergetic x‐ray beam

Spectroscopy and Light Emitting Diodes Based System in Characterizing External Beam Therapy 3 Films for Solar Ultraviolet Measurement

Characterization of XR‐RV3 GafChromic® films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors

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Product

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About

Characterization of XR‐RV3 GafChromic^® films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors