期刊文献+
共找到5篇文章
< 1 >
每页显示 20 50 100
Collection efficiency of a monitor parallel plate ionization chamber for pencil beam scanning proton therapy 被引量:8
1
作者 Rong-Cheng Han Yong-Jiang Li Yue-Hu Pu 《Nuclear Science and Techniques》 SCIE CAS CSCD 2020年第2期1-10,共10页
The collection efficiency of monitor parallel plate ionization chambers is the main uncertainty in the beam control of pencil beam scanning systems.Existing calculation methods for collection efficiency in photon or p... The collection efficiency of monitor parallel plate ionization chambers is the main uncertainty in the beam control of pencil beam scanning systems.Existing calculation methods for collection efficiency in photon or passive scattering proton systems have not considered the characteristics of non-uniform charge density in pencil beam scanning systems.In this study,Boag’s theory was applied to a proton pencil beam scanning system.The transverse distribution of charge density in the ionization chamber was considered to be a Gaussian function and an analytical solution was derived to calculate collection efficiency in the beam spot area.This calculation method is called the integral method and it was used to investigate the effects of beam parameters on collection efficiency.It was determined that collection efficiency is positively correlated with applied voltage,beam size,and beam energy,but negatively correlated with beam current intensity.Additionally,it was confirmed that collection efficiency is improved when the air filling the monitor parallel plate ionization chamber is replaced with nitrogen. 展开更多
关键词 Collection efficiency Monitor ionization chamber pencil beam scanning Proton therapy
下载PDF
Reformatted method for two-dimensional detector arrays measurement data in proton pencil beam scanning 被引量:2
2
作者 Meng-Ya Guo Xiu-Fang Li +6 位作者 Jie Wang Qi Liu Xiu-Zhen Deng Man-Zhou Zhang Li-Ren Shen Yue-Hu Pu Zhi-Ling Chen 《Nuclear Science and Techniques》 SCIE EI CAS CSCD 2021年第6期83-93,共11页
The spatial resolution of a commercial two-dimensional(2D)ionization chamber(IC)array is limited by the size of the individual detector and the center-to-center distance between sensors.For dose distributions with are... The spatial resolution of a commercial two-dimensional(2D)ionization chamber(IC)array is limited by the size of the individual detector and the center-to-center distance between sensors.For dose distributions with areas of steep dose gradients,inter-detector dose values are derived by the interpolation of nearby detector readings in the conventional mathematical interpolation of 2D IC array measurements.This may introduce significant errors,particularly in proton spot scanning radiotherapy.In this study,by combining logfile-based reconstructed dose values and detector measurements with the Laplacian pyramid image blending method,a novel method is proposed to obtain a reformatted dose distribution that provides an improved estimation of the delivered dose distribution with high spatial resolution.Meanwhile,the similarity between the measured original data and the downsampled logfilebased reconstructed dose is regarded as the confidence of the reformatted dose distribution.Furthermore,we quantify the performance benefits of this new approach by directly comparing the reformatted dose distributions with 2D IC array detector mathematically interpolated measurements and original low-resolution measurements.The result shows that this new method is better than the mathematical interpolation and achieves gamma pass rates similar to those of the original low-resolution measurements.The reformatted dose distributions generally yield a confidence exceeding 95%. 展开更多
关键词 2D ion chamber array detectors Laplacian pyramid image blending High-resolution reformatted methods pencil beam scanning Proton therapy
下载PDF
Evaluation of Single Field Uniform Dose (SFUD) Proton Pencil Beam Scanning (PBS) Planning Strategy for Lung Mobile Tumor Using a Digital Phantom
3
作者 Gang Liu Hong Quan +3 位作者 Xiaoqiang Li Craig Stevens Di Yan Xuanfeng Ding 《International Journal of Medical Physics, Clinical Engineering and Radiation Oncology》 2016年第4期213-229,共17页
Purpose: To quantitatively evaluate four different Proton SFUD PBS initial planning strategies for lung mobile tumor. Methods and Materials: A virtual lung patient’s four-dimensional computed tomography (4DCT) was ge... Purpose: To quantitatively evaluate four different Proton SFUD PBS initial planning strategies for lung mobile tumor. Methods and Materials: A virtual lung patient’s four-dimensional computed tomography (4DCT) was generated in this study. To avoid the uncertainties from target delineation and imaging artifacts, a sphere with diameter of 3 cm representing a rigid mobile target (GTV) was inserted into the right side of the lung. The target motion is set in superior-inferior (SI) direction from ?5 mm to 5 mm. Four SFUD planning strategies were used based on: 1) Maximum-In-tensity-Projection Image (MIP-CT);2) CT_average with ITV overridden to muscle density (CTavg_muscle);3) CT_average with ITV overridden to tumor density (CTavg_tumor);4) CT_average without any override density (CTavg_only). Dose distributions were recalculated on each individual phase and accumulated together to assess the “actual” treatment. To estimate the impact of proton range uncertainties, +/?3.5% CT calibration curve was applied to the 4DCT phase images. Results: Comparing initial plan to the dose accumulation: MIP-CT based GTV D98 degraded 2.42 Gy (60.10 Gy vs 57.68 Gy). Heart D1 increased 6.19 Gy (1.88 Gy vs 8.07 Gy);CTavg_tumor based GTV D98 degraded 0.34 Gy (60.07 Gy vs 59.73 Gy). Heart D1 increased 2.24 Gy (3.74 Gy vs 5.98 Gy);CTavg_muscle based initial GTV D98 degraded 0.31 Gy (60.4 Gy vs 60.19 Gy). Heart D1 increased 3.44 Gy (4.38 Gy vs 7.82 Gy);CTavg_only based Initial GTV D98 degraded 6.63 Gy (60.11 Gy vs 53.48 Gy). Heart D1 increased 0.30 Gy (2.69 Gy vs 2.96 Gy);in the presence of ±3.5% range uncertainties, CTavg_tumor based plan’s accumulated GTV D98 degraded to 57.99 Gy (+3.5%) 59.38 Gy (?3.5%), and CTavg_muscle based plan’s accumulated GTV D98 degraded to 59.37 Gy (+3.5%) 59.37 Gy (?3.5%). Conclusion: This study shows that CTavg_Tumor and CTavg_Muscle based planning strategies provide the most robust GTV coverage. However, clinicians need to be aware that the actual dose to OARs at distal end of target may increase. The study also indicates that the current SFUD PBS planning strategy might not be sufficient to compensate the CT calibration uncertainty. 展开更多
关键词 Proton Therapy Single Field Uniform Dose pencil beam scanning 4DCT Lung Tumor
下载PDF
Technical commissioning of the spot scanning system in Shanghai Proton Therapy Facility 被引量:2
4
作者 Ming Liu Haiyang Zhang +11 位作者 Hang Shu Chongxian Yin Liying Zhao Lianhua Ouyang Rui Li Songqing Tan Zhishan Wang Hanwen Du Haiqun Zhang Manzhou Zhang Kecheng Chu Xiaolei Dai 《Radiation Detection Technology and Methods》 CSCD 2020年第1期46-55,共10页
Background In the field of particle therapy,the method of pencil beam scanning is of great potential for clinical application,now and in the future.Purpose The authors made strong effort to develop a spot scanning sys... Background In the field of particle therapy,the method of pencil beam scanning is of great potential for clinical application,now and in the future.Purpose The authors made strong effort to develop a spot scanning system for Shanghai Proton Therapy Facility.Design parameters and basic layout of the system are introduced.Methods Functionalities and specifications of crucial devices are described in detail.Most of the devices in the system were designed in house by the authors themselves,including scanning nozzle,scanning magnets and their power supplies,beam monitors,irradiation control modules and safety interlock modules.During the technical commissioning stage in the fix beam room,the spot scanning system was tested and verified.Results Under conditions of the maximum dose rate and minimum dose rate,a)repeatability of the single spot dose is less than±0.1%;b)nonlinearity of the single spot dose is less than±0.1%;c)FWHM for spot size in air at isocenter varies from 8mm to 12mm for full energy,consistent with the design values;d)lateral dose distribution achieves a flatness of less than 2%for multiple proton energies.Conclusion According to the results of technical commissioning,the spot scanning system is capable of producing a pre-scribed 3D dose distribution for target tumor successfully. 展开更多
关键词 Particle therapy pencil beam scanning Commissioning
原文传递
Design of a large momentum acceptance proton therapy gantry utilizing AG-CCT magnets
5
作者 Yi-Cheng Liao Xu Liu +3 位作者 Wei Wang Zi-Yi Yang Qu-Shan Chen Bin Qin 《Nuclear Science and Techniques》 SCIE EI CAS 2024年第10期59-69,共11页
The application of superconducting(SC)technology enables magnets to excite strong fields with small footprints,which has great potential for miniaturizing proton therapy gantries.However,the slow ramping rate of SC ma... The application of superconducting(SC)technology enables magnets to excite strong fields with small footprints,which has great potential for miniaturizing proton therapy gantries.However,the slow ramping rate of SC magnets results in a low treatment efficiency compared with normal-conducting(NC)gantries.To address this problem,this study proposes a compact proton therapy gantry design with a large momentum acceptance utilizing alternating-gradient canted-cosine-theta(AG-CCT)SC magnets.In our design,a high-transmission degrader is mounted in the middle of the gantry,and the upstream beamline employs NC magnets with small apertures.Downstream of the degrader,large-bore AG-CCT magnets with strong alternating focusing gradients are set symmetrically as a local achromat,which realizes a momentum acceptance of 20%(or 40%in the energy domain).Therefore,only three magnetic working points are required to cover a treatment energy of 70-230 Me V.Owing to the large momentum acceptance,the proton beam after the degrader can be directly delivered to the isocenter without truncating its energy spectrum,which can significantly increase the treatment efficiency but causes severe dispersion effects during pencil beam scanning.Therefore,a compensation method was introduced by tuning the normal and skewed quadrupoles during the scanning process.As a result,the new gantry not only presents a remarkable reduction in the size and weight of the facility but also shows good potential for fast treatment. 展开更多
关键词 Alternating-gradient canted-cosine-theta magnets Large momentum acceptance gantry pencil beam scanning Proton therapy
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部