지원사업
학술연구/단체지원/교육 등 연구자 활동을 지속하도록 DBpia가 지원하고 있어요.
커뮤니티
연구자들이 자신의 연구와 전문성을 널리 알리고, 새로운 협력의 기회를 만들 수 있는 네트워킹 공간이에요.
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초록· 키워드
오류제보하기
Background: Four-dimensional computed tomographic (4DCT) images are increasingly used in clinic with the growing need to account for the respiratory motion of the patient during radiation treatment. One of the reason s that makes the dose evaluation using 4DCT inaccurate is a change of the patient respiration during the treatment session, i.e., intrafractional uncertainty. Especially, when the amplitude of the patient respiration is greater than the respiration range during the 4DCT acquisition, such an organ motion from the larger respiration is difficult to be represented with the 4DCT. In this paper, the method to generate images expecting the organ motion from a respiration with extended amplitude was proposed and examined. Materials and Methods: We propose a method to generate extra-phase images from a given set of the 4DCT images using deformable image registration (DIR) and linear extrapolation. Deformation vector fields (DVF) are calculated from the given set of images, then extrapolated according to respiratory surrogate. The extra-phase images are generated by applying the extrapolated DVFs to the existing 4DCT images. The proposed method was tested with the 4DCT of a physical 4D phantom. Results and Discussion: The tumor position in the generated extra-phase image was in a good agreement with that in the gold-standard image which is separately acquired, using the same 4DCT machine, with a larger range of respiration. It was also found that we can generate the best quality extra-phase image by using the maximum inhalation phase (T0) and maximum exhalation phase (T50) images for extrapolation. Conclusion: In the present study, a method to construct extra-phase images that represent expanded respiratory motion of the patient has been proposed and tested. The movement of organs from a larger respiration amplitude can be predicted by the proposed method. We believe the method may be utilized for realistic simulation of radiation therapy.
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참고문헌 (21)
참고문헌 신청
Feygelman V / 2013 / Dosimetric quality assurance of highly conformal external beam treatments: from 2D phantom comparisons to 4D patient dose reconstruction / J. Phys. Conf. Ser 444:012012
Ezzell GA / 2009 / IMRT commissioning: Multiple institution planning and dosimetry comparisons, a report from AAPM Task Group 119 / Med. Phys 36(11):5359~5373
van Elmpt W / 2008 / The next step in patient-specific QA: 3D dose verification of conformal and intensity-modulated RT based on EPID dosimetry and Monte Carlo dose calculations / Radiother. Oncol 86(1):86~92
Renner WD / 2003 / A dose delivery verification method for conventional and intensity‐modulated radiation therapy using measured field fluence distributions / Med. Phys 30(11):2996~3005
van Elmpt W / 2006 / A Monte Carlo based three-dimensional dose reconstruction method derived from portal dose images / Med. Phys 33(7):2426~2434
Ezzell GA / 2009 / IMRT commissioning: Multiple institution planning and dosimetry comparisons, a report from AAPM Task Group 119 / Med. Phys 36(11):5359~5373
van Elmpt W / 2008 / The next step in patient-specific QA: 3D dose verification of conformal and intensity-modulated RT based on EPID dosimetry and Monte Carlo dose calculations / Radiother. Oncol 86(1):86~92
Renner WD / 2003 / A dose delivery verification method for conventional and intensity‐modulated radiation therapy using measured field fluence distributions / Med. Phys 30(11):2996~3005
van Elmpt W / 2006 / A Monte Carlo based three-dimensional dose reconstruction method derived from portal dose images / Med. Phys 33(7):2426~2434
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