HE Fang-fang,XU Xiao,ZHAO Lu-jun,WANG Ke-qiang,MAO Su.Effect of respiration on the radiation dose distribution within target volume in radiotherapy[J].Chinese Journal of Radiological Medicine and Protection,2009,29(3):309-312
Effect of respiration on the radiation dose distribution within target volume in radiotherapy
Received:October 20, 2008  
DOI:10.3760/cma.j.issn.0254-5098.2009.03.024
KeyWords:Radiation therapy  Dose distribution  Respiration movement
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Author NameAffiliationE-mail
HE Fang-fang Department of Radiation Oncology, General Hospital of Tianjin University, Tianjin 300052, China  
XU Xiao Department of Radiation Oncology, General Hospital of Tianjin University, Tianjin 300052, China xxucn@yahoo.com 
ZHAO Lu-jun 天津医科大学附属肿瘤医院  
WANG Ke-qiang Department of Radiation Oncology, General Hospital of Tianjin University, Tianjin 300052, China  
MAO Su 北京大恒医疗设备有限公司  
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Abstract::
      Objective To evaluate the influence of respiration on the radiation dose distribution within target volume in radiotherapy with film dosimetry.Methods Radiation of 50MU was delivered by a square,round, ellipse, dumb bell, or female shaped filed to the films within a moving or motionless Respiration Motion Phantom respectively, the dose distributions for the two motion status were measured and compared. In order to further verify the impact of respiration, a plank phantom was used on different shifting value: 0, 0.5, 1.0, 1.5 and 2.0 cm, respectively. A square, round, or ellipse-shaped filed was used for irradiation and the distributions in different status were measured and compared with film dosimetry. Iso-dose line comparison, NAT(Normalized Agreement Tests) and γ comparison were used for the comparison of dose distributions. Fs can be an index to reflect the variability of the areas that surrounded by iso-dose lines. (FS90,FS50,FS25 delegates the ratio of the areas that surrounded by 90%,50%,25% iso-dose line in different situation respectively).Results (1) Compared with motionless situation, the FS90 in horizontal movement situation became small and the FS25 became large. As the displacement became larger, the FS90 became larger and the FS25 became smaller. Fs in vertical movement situation, square and dumb bell fields changed while the others didn't have a change. (2) γ and NAT comparison: In the horizontal movement situation, compared with the static phantom, Pγ<60% and PNAT<75%. Under vertical movement situation, Pγ were less than 85% for the square, round, dumb bell and female shaped fileds. In the plank phantom verification, Pγ and PNAT became smaller as the movement became larger. Conclusions The respiration can impact on the dose distribution within the target volume in radiotherapy, leading to a smaller area of higher dose level and an expanded area of lower dose level. The influence will become more significant with larger movement of the target.
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