• Title/Summary/Keyword: 입체조형 동적회전조사 방사선치료

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A Comparative Study on the Head and Neck Radiation Therapy for Dynamic Conformal Arc Therapy and Volumetric Modulated Arc Therapy (두경부 방사선 치료 시 입체조형동적회전조사치료와 용적변조회전조사치료에 관한 연구)

  • Kim, Deok-Ki;Choi, CheonWoong;Choi, Jae-hyock;Won, Hui-su;Park, Cheol-soo
    • Journal of the Korean Magnetics Society
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    • v.25 no.6
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    • pp.208-218
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    • 2015
  • Recently, radiation therapy is used in the CT existing conventional two-dimensional radiation image, and set the size and location of the tumor in a manner that the image is going to change the treatment plan. After using the simulation using CT, radiation therapy it is four-dimensional or three-dimensional treatment made possible. and radiation therapy became the more effective ever before. High technology radiation therapy such as the treatment of SRS,IMRT, IGRT, SBRT, is a need to try contemplating the possibility to apply appropriate analysis and situation, so it has its own characteristics. and then it is believed that it is necessary to analyze and try it worries the proper applicability of the situation. The configuration of the various treatment that is applicable in many hospitals is necessary to try to determine how to practically apply the patients. Critical organs surrounding tumor give a small dose to avoid side effects and then the tumor has the therapeutic effect by providing a larger dose than before the radiation treatment.

Dosimetric Verification of Dynamic Conformal Arc Radiotherapy (입체조형 동적회전조사 방사선치료의 선량 검증)

  • Kim Tae Hyun;Shin Dong Ho;Lee Doo Hyun;Park Sung Yong;Yun Myung Guen;Shin Kyung Hwan;Py Hong Ryull;Kim Joo-Young;Kim Dae Yong;Cho Kwan Ho;Yang Dae-Sik;Kim Chul-Yong
    • Progress in Medical Physics
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    • v.16 no.4
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    • pp.166-175
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    • 2005
  • The purpose of this study is to develop the optimization method for adjusting the film isocenter shift and to suggest the quantitative acceptable criteria for film dosimetry after optimization In the dynamic conformal arc radiation therapy (DCAR). The DCAR planning was peformed In 7 patients with brain metastasis. Both absolute dosimetry with ion chamber and relative film dosimetry were peformed throughout the DCAR using BrainLab's micro-multileaf collimator. An optimization method for obtaining the global minimum was used to adjust for the error in the film isocenter shift, which is the largest pan of systemic errors. The mean of point dose difference between measured value using ion chamber and calculated value acquired from planning system was $0.51{\pm}0.43\%$ and maximum was $1.14\%$ with absolute dosimetry These results were within the AAPM criteria of below $5\%$. The translation values of film isocenter shift with optimization were within ${\pm}$1 mm in all patients. The mean of average dose difference before and after optimization was $1.70{\pm}0.35\%$ and $1.34{\pm}0.20\%$, respectively, and the mean ratios over $5\%$ dose difference was $4.54{\pm}3.94\%$ and $0.11{\pm}0.12\%$, respectively. After optimization, the dose differences decreased dramatically and a ratio over $5\%$ dose difference and average dose difference was less than $2\%$. This optimization method is effective in adjusting the error of the film isocenter shift, which Is the largest part of systemic errors, and the results of this research suggested the quantitative acceptable criteria could be accurate and useful in clinical application of dosimetric verification using film dosimetry as follows; film isocenter shift with optimization should be within ${\pm}$1 mm, and a ratio over $5\%$ dose difference and average dose difference were less than $2\%$.

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