【摘 要】
:
Purpose:The most common type of cancer among women is breast cancer.Accurate assessment of skin dose in radiotherapy can provide useful information for clinical consideration.The aim of this study is
【机 构】
:
Medical Physics Research Center,Mashhad University of Medical Sciences,Mashhad,Iran
【出 处】
:
The 15th Asia-Oceania Congress of Medical Physics (AOCMP2015
论文部分内容阅读
Purpose:The most common type of cancer among women is breast cancer.Accurate assessment of skin dose in radiotherapy can provide useful information for clinical consideration.The aim of this study is assessment of skin dose in breast cancer radiotherapy with 6 MV photon beam of a medical linac.Methods:A RANDO phantom was irradiated by a 6 MV Siemens Primus linac with medial and lateral fields of radiotherapy of breast cancer.Dosimetry was performed for various positions on the fields using EBT3 radiochromic film.The films were scanned by a 1000XL Microtek color scanner.Similar conditions of measurement on and RANDO phantom,including field size,angle of irradiation,number of fields and etc.,were simulated with MCNPX Monte Carlo code.Dose values for corresponding points from two methods were compared.Results:In dosimetry with radiochromic films on RANDO phantom,there were points having underdosage and overdosage based on the prescribed dose and skin tolerance levels.85%of points had underdosage and 15%of points had overdosage.In some cases,relatively large differences were observed between the Monte Carlo and measurement results of skin dose.Conclusions:Based on the interpretation of the results of the points which have underdosage,it is suggested that bolus be used for those points.For the overdosage points the skin tolerance dose should be considered.The reason for the difference observed between the measurement and simulation results can be relevant to the effect of angle of beam incidence,voxel size and MCNPX tally type which was used.
其他文献
Purpose:The increasingly attractive stereotactic body radiation therapy(SBRT) for stage I lung cancer is accompanied by a large amount of monitor units(MU),leading to excessive out-of-field dose and p
Purpose:Development of MR/CT compatible and tissue-equivalent phantom was proposed for MRI-only based radiotherapy.Materials and Methods:The MR/CT compatible and a new tissue-equivalent phantom was de
Purpose:To Time-of-Flight positron emission tomography(TOF-PET),the TOF benefit highly depends on the system timing precision.As a result,it is meaningful to measure the time resolution of the PET sys
Purpose:We study the dosimetric effect on the target volume,organs at risk(OARs)and normal tissues based on the different choice for four types of variables,namely,treatment position,dose calculation
Purpose:In this paper,we report the results of our investigation into whole brain radiotherapy(WBRT)using linear accelerator(Linac)-based intensity-modulated radiation therapy(IMRT)and volumetricmodul
Purpose:Abdominal compression is known to be effective but,often makes external-marker-based monitoring of breathing motion not feasible.In this study,we developed and evaluated a system that enables
Purpose:To develop a patient-specific rectal toxicity predictor guided plan quality control tool for prostate SBRT plans.Methods:For prostate SBRT cases,rectal wall is identified as organs at risk and
The purpose of this study was to conduct quality assurance(QA)of plans of four patients having multiple metastatic lesions(targets)simultaneously treated with mono isocentric three dimensional conform
Purpose:This study aimed to determine the optimal fractions scheme(FS)in small peripheral non-small cell lung cancer(NSCLC)patients undergoing stereotactic body radiotherapy(SBRT)by comparing the ther
Purpose To explore the real-time dose verification method in volumetric modulated arc radiotherapy(VMAT)with a 2D array ion chamber array.Methods The 2D ion chamber array was fixed on the panel of ele