• 대한방사선치료학회지
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• 제32권
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• pp.31-39
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• 2020

목 적: 본 연구는 HalcyonTM과 TrueBeamTM에서 사용하는 6MV-FFF(Flattening Filter Free) 에너지를 이용하여 전산화치료계획시스템(Treatment Planning System, TPS)에서 계산된 선량과 광자극형광선량계(Optically Stimulated Luminescence Dosimeter, OSLD)로 측정된 표재 선량(Superficial dose)을 비교하고자 한다. 재료 및 방법: 팬텀연구를 위해 인체모형 팬텀(Human Phantom)의 CT 영상을 이용하여 치료계획시스템에서 성문암(Glottic cancer)과 유사한 치료계획용적(Planning Target Volume, PTV)과 두경부위의 등 중심점(Iso-center) 위치에 측정을 위한 Point(M), Point(R), Point(L)의 구조물을 설정하고 체표윤곽(Body contour)에 5mm Bolus를 적용하였다. 그 후 전산화치료계획은 HalcyonTM과 TrueBeamTM의 6MV-FFF 에너지를 이용하여 정적(Static) 세기변조방사선치료(Intensity Modulated Radiation Therapy, IMRT)와 용적변조회전치료(Volumetric Modulated Arc Therapy, VMAT)계획을 각각 수립하였다. 전산화치료계획과 동일하게 재현하기 위해 OSLD를 등 중심점에 위치시키고 5mm Bolus를 적용하여 선량 전달 후 오차율을 비교하였다. 결 과: 인체모형 팬텀을 사용한 실험 결과 HalcyonTM의 전산화치료계획시스템에서의 점 선량과 OSLD를 이용한 선량 측정의 오차율의 절댓값의 평균은 VMAT, IMRT 각각 1.7±1.2%, 4.0±2.8%로 확인되었으며, TrueBeamTM의 오차율의 절댓값의 평균은 VMAT, IMRT 각각 2.4±0.4%, 8.6±1.8%로 확인되었다. 결 론: 실험결과 HalcyonTM을 기준으로 TrueBeamTM에서 VMAT과 IMRT 각각 2.4배, 3.6배 더 큰 오차가 발생하는 것을 확인할 수 있었다. 따라서 본 연구의 결과를 토대로 표재 선량에 대한 정확한 선량평가가 이루어져야 하는 경우, TrueBeamTM보다 HalcyonTM에서 정확한 선량 평가가 이루어질 수 있을 것으로 사료된다.

• 대한방사선치료학회지
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• 제31권1호
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• pp.43-49
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• 2019

목 적: 움직이는 장기에 취약한 Pencil Beam Scanning(PBS)을 보완하기 위해 고안된 Layered Rescanning PBS 기법을 Moving Phantom에 적용하여 Single Scan PBS와 선량비교를 통해 Homogeneity를 비교해 본다. 대상 및 방법: Matrix X(IBA, Belgium)와 Moving Phantom(standard imaging, USA)을 이용하였다. 가상의 tumor $10{\times}10{\times}5cm$에 AP 방향에서 200 cGy의 선량을 조사하였다. 치료계획은 single scan PBS, rescan 4, 8, 12회 총 4가지로 하였고 각 치료계획별로 3번씩 반복 측정하였다. 측정 시 Moving Phantom의 호흡주기는 한 cycle당 4초로 설정 후 S-I 방향 움직임 2 cm으로 설정하였다. 추가로 beam on time을 측정하였다. 결 과: PTV 내에서 $D_{max}$의 평균값은 single scan, 4, 8, 12회 rescan 순서로 각각 $246.47{\pm}18.8cGy$, $223.43{\pm}8.92cGy$, $222.47{\pm}7.7cGy$, $213.9{\pm}6.11cGy$ $D_{min}$의 평균값은 각각 $165.53{\pm}4.32cGy$, $173.13{\pm}11.94cGy$, $184.13{\pm}8.04cGy$, $182.67{\pm}4.38cGy$으로 $D_{mean}$ $192.77{\pm}6.98cGy$, $196.7{\pm}4.01cGy$, $198.17{\pm}4.96cGy$, $195.77{\pm}3.15cGy$으로 측정되었다. 그리고 rescan 횟수가 늘어날수록 Homogeneity Index가 1에 가까워졌으며, beam on time은 평균 2분 15초, 3분 15초, 4분 30초, 5분 37초로 rescan 횟수가 증가할수록 치료시간이 증가되었다. 측정하는 과정에서 MU가 낮은 선량 layer에서는 설정한 rescan 횟수만큼 실제로 rescan하지 못하는 문제점이 발견되었다. 결 론: 장기 움직임이 있는 종양 치료 시 Layered Rescanning PBS을 적용했을 때 single scan PBS보다 균일한 선량분포를 확인할 수 있었다. 그리고 rescan 횟수가 증가할수록 균일한 선량분포를 보였다. single scan PBS와 12회 Layered rescanning 비교 시 HI 수치가 0.32 향상되었다. 추후 연구를 통하여 호흡동조 방사선치료가 불가능환자에게 적용이 가능할 것으로 사료된다.

• 한국의학물리학회지:의학물리
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• 제11권2호
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• pp.147-155
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• 2000

Patient dose verification is one of the most important parts in quality assurance of the treatment delivery for radiation therapy. The dose distributions may be meaningfully improved by modulating two dimensional intensity profile of the individual high energy radiation beams In this study, a new method is presented for the pre-treatment dosimetric verification of these two dimensional distributions of beam intensity by means of a charge coupled device video camera-based fluoroscopic device (henceforth called as CCD-VCFD) as a radiation detecter with a custom-made software for dose calculation from fluorescence signals. This system of dosimeter (CCD-VCFD) could reproduce three dimensional (3D) relative dose distribution from the digitized fluoroscopic signals for small (1.0$\times$1.0 cm$^2$ square, ø 1.0 cm circular ) and large (30$\times$30cm$^2$) field sizes used in intensity modulated radiation therapy (IMRT). For the small beam sizes of photon and electron, the calculations are performed In absolute beam fluence profiles which are usually used for calculation of the patient dose distribution. The good linearity with respect to the absorbed dose, independence of dose rate, and three dimensional profiles of small beams using the CCD-VCFD were demonstrated by relative measurements in high energy Photon (15 MV) and electron (9 MeV) beams. These measurements of beam profiles with CCD-VCFD show good agreement with those with other dosimeters such as utramicro-cylindrical (UC) ionization chamber and radiographic film. The study of the radiation dosimetric technique using CCD-VCFD may provide a fast and accurate pre-treatment verification tool for the small beam used in stereotactic radiosurgery (SRS) and can be used for verification of dose distribution from dynamic multi-leaf collimation system (DMLC).

• Radiation Oncology Journal
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• 제10권1호
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• pp.95-100
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• 1992

LINAC 뇌정위적 방사선 수술은 multiple noncoplanar arc, 3 차원 선량 계산 및 많은 조사 변수들이 사용되기 때문에 간단한 경우에도 최적 선량분포를 얻기 위해서는 많은 시간이 요구된다. 본 논문에서는 실험적 방법과 분석적 방법을 통한 유용한 방법을 제시하기 위한 것으로서, 보다 자세한 방법 및 내용은 앞으로의 발표 논문에서 다루게 된다. 실험적 방법으로 2가지 방법에의하면, 첫번째 방법은 multiple isocenter를 이용하는 것이고, 두번째 방법은 beam's eye view와 field shaping을 이용한 conformal therapy이다. 분석적 방법은 최적 조사조건을 찾기 위하여 computer-aided design optimization 방법을 이용하는 것이다.

• Nuclear Engineering and Technology
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• 제55권1호
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• pp.215-221
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• 2023

Proton treatment may deliver a larger dose to a patient's skin than traditional photon therapy, especially when a range shifter (RS) is inserted in the beam path. This study investigated the effects of an RS on skin dose while considering RS with different thicknesses, airgaps and materials. First, the physical model of the scanning nozzle with RS was established in the TOol for PArticle Simulation (TOPAS) code, and the effects of the RS on the skin dose were studied. Second, the variations in the skin dose and isocenter beam size were examined by reducing the air gap. Finally, the effects of different RS materials, such as polymethylmethacrylate (PMMA), Lexan, polyethylene and polystyrene, on the skin dose were analysed. The results demonstrated that the current RS design had a negligible effect on the skin dose, whereas the RS significantly impacted the isocenter beam size. The skin dose was increased considerably when the RS was placed close to the phantom. Moreover, the magnitude of the increase was related to the thickness of the inserted RS. Meanwhile, the results also revealed that the secondary proton primarily contributed to the increased skin dose.

• 대한방사선치료학회지
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• 제5권1호
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• pp.68-73
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• 1992

If the same weight is used in parallel opposed 6 and 10 MV x-ray beams, the lowest dose is achieved at SAD. Therefore, dose homogeneity in the target volume is decreased when SAD is taken at center of target volume than center of phantom or patient. With Standard deviation of ${\pm}6\%$ that repuesented the dose homogeneity in tarhet volume, we studied the optimized beam weights at which hot spot dose was least in parallel opposed beams. The optimized beam weights that maximally decrease the hot spot dose, wer 1.29, 1.19, 2.71, 3.50, and 4.70 in 6 MV x-ray and 1.25, 1.53, 1.90, 2.36, 3.01, and 3.7 in 10 MV x-ray, reapectively, when center of target volume was changed to 2,4,6,8,10, and 12cm from center plan of phantom along the centeral axis of beams.

• 대한방사선치료학회지
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• 제1권1호
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• pp.79-83
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• 1985

Carcinoma of the breast has been treated by surgery followed by irradiation of the chest wall and regional lymphatics treatment planning of the breast cancer is required that lung must be spared as much as possible. However megavoltage irradiation of the internal mammary chain results in high dose to underlying heart, esophagus and spinal cord. Electron beam can be used for the irradiation of the internal mammary chain instead of megavoltage beam. We studied dose distribution of single anterior electron field, compared with traditional treatment methods. 12 and 15MeV electron beam with bolus has good dose distribution to spare underlying lung tissue and other organs.

• Imaging Science in Dentistry
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• 제42권2호
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• pp.83-88
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• 2012

Purpose : The aim of this study was to investigate the initial effects of maxillary expansion therapy with Hyrax appliance and to evaluate the related changes in maxillary sinus volume. Materials and Methods : Thirty patients (20 females, 10 males; 13.8 years) requiring maxillary expansion therapy, as part of their comprehensive orthodontic treatment, were examined. Each patient had cone-beam computed tomography (CBCT) images taken before (T1) and after (T2) maxillary expansion therapy with a banded Hyrax appliance. Multiplanar slices were used to measure linear dimensions and palatal vault angle. Volumetric analysis was used to measure maxillary sinus volumes. Student t tests were used to compare the pre- and post-treatment measurements. Additionally, differences between two age groups were compared with Mann-Whitney U test. The level of significance was set at p=0.05. Results : Comparison of pre-treatment to post-treatment variables revealed significant changes in the transverse dimension related to both maxillary skeletal and dental structures and palatal vault angle, resulting in a widened palatal vault (p<0.05). Hard palate showed no significant movement in the vertical and anteroposterior planes. Nasal cavity width increased on a mean value of 0.93mm(SD=0.23, p<0.05). Maxillary sinus volume remained virtually stable. No significant age differences were observed in the sample. Conclusion : Hyrax expansion therapy did not have a significant impact on maxillary sinus volume.

• 한국의학물리학회:학술대회논문집
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• 한국의학물리학회 2002년도 Proceedings
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• pp.298-299
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• 2002

WERC (Wakasa Wan Energy Research Center) has started the proton cancer therapy since June 2002. We use Hitachi 3D treatment planning (version 1.6) that can calculate the proton dose distribution by use of the pencil beam algorithm as well as the broad beam algorithm practically fast. This treatment planning software satisfies almost functions required in the proton therapy and includes some advanced techniques such as the 3D region glowing function that can search the target region three-dimensionally based on the CT-values. In this paper, we will introduce this planning system and present our evaluation from point of view of both clinical usage and QA.

• 한국의학물리학회지:의학물리
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• 제27권4호
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• pp.267-271
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• 2016

In this study, we present the commissioning and validation results of a dedicated scanning nozzle. The dedicated scanning nozzle is installed in one of the two gantry treatment rooms at Samsung Proton Therapy Center. Following a successful completion of the acceptance test, the commissioning process including the beam data measurement for treatment planning system has been conducted. Extended measurements have been conducted as a validation of the clinical performance of the nozzle and various quality assurance protocols have been prepared.