A feasibility study of multislice X‐ray CT imaging of gel dosimeters using the “zero scan” method

This study evaluated the feasibility of combining the 'zero-scan' (ZS) X-ray computed tomography (CT) based polymer gel dosimeter (PGD) readout with adaptive mean (AM) filtering for improving the signal to noise ratio (SNR), and to compare these results with available average scan (AS) X-ray CT readout techniques. NIPAM PGD were manufactured, irradiated with 6 MV photons, CT imaged and processed in Matlab. AM filter for two iterations, with 3 × 3 and 5 × 5 pixels (kernel size), was used in two scenarios (a) the CT images were subjected to AM filtering (pre-processing) and these were further employed to generate AS and ZS gel images, and (b) the AS and ZS images were first reconstructed from the CT images and then AM filtering was carried out (post-processing). SNR was computed in an ROI of 30 × 30 for different pre and post processing cases. Results showed that the ZS technique combined with AM filtering resulted in improved SNR. Using the previously-recommended 25 images for reconstruction the ZS pre-processed protocol can give an increase of 44% and 80% in SNR for 3 × 3 and 5 × 5 kernel sizes respectively. However, post processing using both techniques and filter sizes introduced blur and a reduction in the spatial resolution. Based on this work, it is possible to recommend that the ZS method may be combined with pre-processed AM filtering using appropriate kernel size, to produce a large increase in the SNR of the reconstructed PGD images.

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Improving the quality of reconstructed X-ray CT images of polymer gel dosimeters: zero-scan coupled with adaptive mean filtering

Kakakhel

Jirásek

Johnston

et al. 2017

Australas Phys Eng Sci Med

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Basic features of VIC-T dosimeter with spiral CT readout, CT scanning conditions and data processing with a new polyGeVero-CT software package

Maras

Jaszczak

Kozicki

2021

Radiation Physics and Chemistry

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Optical and X-ray computed tomography scanning of 3D dosimeters

Jordan

Hilts

Jirásek

2017

J. Phys.: Conf. Ser.

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Abstract. Optical computed tomography (CT) scanners can measure attenuation in largevolume radiochromic dosimeters. Scattered light within the dosimeters is the major factor limiting dynamic range. Scattered light limits the use of large volume polymerization gels for small field dosimetry with broad-beam scanning geometries. Planar and single ray scanning geometries generate and accept less stray light due to scatter in the dosimeter. Transparent, radiochromic dosimeters provide higher dynamic range for accurate transmission imaging. Xray CT scanning is applicable for large volume polymerization gel dosimeters.

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A feasibility study of multislice X‐ray CT imaging of gel dosimeters using the “zero scan” method

Cited by 3 publications

References 12 publications

Improving the quality of reconstructed X-ray CT images of polymer gel dosimeters: zero-scan coupled with adaptive mean filtering

Improving the quality of reconstructed X-ray CT images of polymer gel dosimeters: zero-scan coupled with adaptive mean filtering

Basic features of VIC-T dosimeter with spiral CT readout, CT scanning conditions and data processing with a new polyGeVero-CT software package

Optical and X-ray computed tomography scanning of 3D dosimeters

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