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Calculation of imag...
Calculation of images from an anthropomorphic chest phantom using Monte Carlo methods
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- Ullman, Gustaf (author)
- Linköpings universitet,Medicinsk radiofysik,Hälsouniversitetet
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- Malusek, Alexandr (author)
- Linköpings universitet,Medicinsk radiofysik,Hälsouniversitetet
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- Sandborg, Michael (author)
- Linköpings universitet,Medicinsk radiofysik,Hälsouniversitetet
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- Dance, David R. (author)
- The Royal Marsden NHS Trust, United Kingdom
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- Alm Carlsson, Gudrun (author)
- Linköpings universitet,Medicinsk radiofysik,Hälsouniversitetet
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(creator_code:org_t)
- SPIE, 2006
- 2006
- English.
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In: Proceedings of SPIE. - : SPIE.
- Related links:
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http://urn.kb.se/res...
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https://urn.kb.se/re...
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https://doi.org/10.1...
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Abstract
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- Monte Carlo (MC) computer simulation of chest x-ray imaging systems has hitherto been performed using anthropomorphic phantoms with too large (3 mm) voxel sizes. The aim for this work was to develop and use a Monte Carlo computer program to compute projection x-ray images of a high-resolution anthropomorphic voxel phantom for visual clinical image quality evaluation and dose-optimization. An Alderson anthropomorphic chest phantom was imaged in a CT-scanner and reconstructed with isotropic voxels of 0.7 mm. The phantom was segmented and included in a Monte Carlo computer program using the collision density estimator to derive the energies imparted to the detector per unit area of each pixel by scattered photons. The image due to primary photons was calculated analytically including a pre-calculated detector response function. Attenuation and scatter of x-rays in the phantom, grid and image detector was considered. Imaging conditions (tube voltage, anti-scatter device) were varied and the images compared to a real computed radiography (Fuji FCR 9501) image. Four imaging systems were simulated (two tube voltages 81 kV and 141 kV using either a grid with ratio 10 or a 30 cm air gap). The effect of scattered radiation on the visibility of thoracic vertebrae against the heart and lungs is demonstrated. The simplicity in changing the imaging conditions will allow us not only to produce images of existing imaging systems, but also of hypothetical, future imaging systems. We conclude that the calculated images of the high-resolution voxel phantom are suitable for human detection experiments of low-contrast lesions.
Keyword
- MEDICINE
- MEDICIN
Publication and Content Type
- ref (subject category)
- kon (subject category)
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