会议论文详细信息
9th International Conference on 3D Radiation Dosimetry
Reduction of artefacts caused by missing ray-sum data in optical-CT imaging of implants in gel dosimeters
Asena, A.^1 ; Smith, S.T.^1 ; Kairn, T.^1,2 ; Crowe, S.B.^1,3 ; Franich, R.D.^4 ; Trapp, J.V.^1
School of Chemistry, Physics, and Mechanical Engineering, Queensland University of Technology, Brisbane, Australia^1
Genesis Cancer Care Queensland, Brisbane, Australia^2
Royal Brisbane and Women's Hospital, Brisbane, Australia^3
School of Science, RMIT University, Melbourne, Australia^4
关键词: Correction method;    Dose distributions;    Dose-distribution measurement;    Evaluation accuracy;    Filtered back projection;    Filtered back-projection methods;    Linear Interpolation;    Physical measurement;   
Others  :  https://iopscience.iop.org/article/10.1088/1742-6596/847/1/012070/pdf
DOI  :  10.1088/1742-6596/847/1/012070
来源: IOP
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【 摘 要 】

This study demonstrates the degradation in image quality, and subsequent dose evaluation inaccuracies, that are encountered when an optical-CT system reconstructs an image slice of a gel dosimeter containing an opaque implant, and evaluates the feasibility of a simple correction method to improve the accuracy of radiotherapy dose distribution measurements under these circumstances. MATLAB was used to create a number of different virtual phantoms and treatment plans along with their synthetic projections and reconstructed data sets. The results have illustrated that accurately evaluating 3D gel dose distributions in the vicinity of high-Z interfaces is not possible using the filtered back projection method, without correction, as there are serious artefacts throughout the dose volume that are induced by the missing ray-sum data. Equivalent artefacts were present in physical measurements of irradiated PAGAT gel containers when read by an optical-CT system. An interpolation correction performed prior to reconstruction via the filtered back projection algorithm has been shown to significantly improve dose evaluation accuracy to within approximately 15 mm of the opacity. With careful placement of the implant within the gel sample, and use of the linear interpolation method described in this study, there is the potential for more accurate optical CT imaging of gels containing opaque objects.

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