CT-Based Brachytherapy Treatment Planning using Monte Carlo Simulation Aided by an Interface Software

نویسندگان

  • Ahmad Esmaili-Torshabi M.Sc. in Medical Radiation Engineering, Medical Radiation Dept., Faculty of Mechanical Engineering, Shiraz University, Shiraz, Iran
  • Ahmad Mosalaei Professor, Radiotherapy and Oncology Dept., Shiraz University of Medical Sciences, Shiraz, Iran
  • Kamal Hadad Associate Professor, Nuclear Engineering, Center of Radiation Research, Shiraz University, Shiraz, Iran
  • Mohammad Amin Mosleh-Shirazi Assistant Professor, Radiotherapy and Oncology Dept., Center of Research in Medical Physics and Engineering, Shiraz University of Medical Sciences, Shiraz, Iran
  • Reza Faghihi Assistant Professor, Nuclear Engineering, Center of Radiation Research, Shiraz University, Shiraz, Iran
  • Simin Mehdizadeh M.Sc., Nuclear Engineering, Center of Radiation Research, Shiraz University, Shiraz, Iran
  • Vahid Moslemi M.Sc. in Medical Radiation Engineering, Medical Radiation Dept., Faculty of Mechanical Engineering, Shiraz University, Shiraz, Iran
چکیده مقاله:

Introduction: In brachytherapy, radioactive sources are placed close to the tumor, therefore, small changes in their positions can cause large changes in the dose distribution. This emphasizes the need for computerized treatment planning. The usual method for treatment planning of cervix brachytherapy uses conventional radiographs in the Manchester system. Nowadays, because of their advantages in locating the source positions and the surrounding tissues, CT and MRI images are replacing conventional radiographs. In this study, we used CT images in Monte Carlo based dose calculation for brachytherapy treatment planning, using an interface software to create the geometry file required in the MCNP code. The aim of using the interface software is to facilitate and speed up the geometry set-up for simulations based on the patient’s anatomy. This paper examines the feasibility of this method in cervix brachytherapy and assesses its accuracy and speed. Material and Methods: For dosimetric measurements regarding the treatment plan, a pelvic phantom was made from polyethylene in which the treatment applicators could be placed. For simulations using CT images, the phantom was scanned at 120 kVp. Using an interface software written in MATLAB, the CT images were converted into MCNP input file and the simulation was then performed. Results: Using the interface software, preparation time for the simulations of the applicator and surrounding structures was approximately 3 minutes; the corresponding time needed in the conventional MCNP geometry entry being approximately 1 hour. The discrepancy in the simulated and measured doses to point A was 1.7% of the prescribed dose.  The corresponding dose differences between the two methods in rectum and bladder were 3.0% and 3.7% of the prescribed dose, respectively. Comparing the results of simulation using the interface software with those of simulation using the standard MCNP geometry entry showed a less than 1% difference of the prescribed dose at 67% of the studied points (minimum

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ct-based brachytherapy treatment planning using monte carlo simulation aided by an interface software

introduction: in brachytherapy, radioactive sources are placed close to the tumor, therefore, small changes in their positions can cause large changes in the dose distribution. this emphasizes the need for computerized treatment planning. the usual method for treatment planning of cervix brachytherapy uses conventional radiographs in the manchester system. nowadays, because of their advantages ...

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عنوان ژورنال

دوره 8  شماره 1

صفحات  41- 53

تاریخ انتشار 2011-03-01

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