• 센서학회지
• /
• 제9권3호
• /
• pp.213-223
• /
• 2000

원자력 관련시설이나 우주 공간, 방사선 치료 센터 등에서 발생되는 방사선량은 정확히 검출되어야 할 필요성이 있다. 본 논문에서는 상용 P채널 Power MOSFET(metal oxide field effect transistor)를 방사선 누적선량 모니터링 센서로 활용하기 위해 실시간 방사선량 검출 측정 시스템을 설계 제작하였고, 시스템의 성능을 분석하기 위하여 Co-60 $\gamma$선원을 갖춘 고준위 조사시설에서 조사한 후 출력특성의 변화를 분석하였다. 방사선 조사실험 결과 P채널 Power MOSFET은 조사된 누적 방사선량에 비례하여 문턱전압($V_T$)이 변화됨과 곡선 변화의 선형적 특성을 지님을 알 수 있었다. 이 선형 함수관계를 이용하여 저가의 상용 P채널 Power MOSFET를 사용한 방사선 총 누적선량을 모니터링하기 위한 센서로 사용할 수 있음을 확인하였다.

• 대한방사선치료학회지
• /
• 제16권2호
• /
• pp.33-41
• /
• 2004

목적 : 선형가속기의 정도관리 항목 중 광조사야와 방사선조사야의 일치성 검사는 기존에 필름을 이용하여 측정하였다. 하지만 필름을 이용한 측정은 측정관찰자에 따라 오차가 크게 발생하여 이를 개선하기 위해 BIS(Beam Image System) 영상장치를 이용하여 필름과 조사야 일치성을 비교평가 하고자 하였다. 대상 및 방법 : 선형가속기를 이용하여 필름과 BIS 영상장치에 6, 15MV의 광자선을 조사하여 측정하였다. 조사야는 각각 $50{\times}50,\;100{\times}100,\;200{\times}200mm^2$지었고, 갠트리 각도는 필름을 사용시 $0^{\circ}$에서 측정하였고, BIS 영상장치를 사용시에는 $0^{\circ}$와 $270^{\circ}$에서 측정하였다. 그리고 조사야 일치성 측정은 필름을 사용시 눈금자와 필름 스캐너를 이용하였고, BIS 영상장치에서는 스캔된 광조사야와 방사선조사야의 폭을 X축과 Y축으로 각각 측정하여 그 오차값을 구하였다. 결과 : 필름을 이용한 관찰자의 시각적인 측정에서는 광조사야보다 방사선조사야가 더 크게 측정되었으며, 최대 1.9mm의 오차값을 보였다. 필름 스캐너를 이용한 측정에서도 방사선조사야가 더 크게 측정되었으며, 평균 오차값의 크기는 더 작은 값을 보였다. BIS 영상장치를 이용한 측정에서는 필름 사용시와는 반대로 갠트리 $0^{\circ}$와 $270^{\circ}$에서 광조사야가 방사선조사야보다 더 크게 측정되었고, 최대 0.96mm의 오차값을 보였다. ${\Delta}X$, Y축 모두 허용오차의 범위는 $<{\pm}2mm$로 나타났다. 측정된 평균 ${\Delta}X$, Y 오차값은 시각적인 필름측정, 필름스캐너 측정, BIS 순으로 작게 나타났다. 결론 : 본 연구의 측정결과, 필름을 이용한 시각적인 조사야 일치성 평가시에는 관찰자에 따른 측정오차의 값이 크게 나타날 수 있으므로 정확한 정도관리를 위해서는 세심한 주의로 측정할 것과 필요하다면 다른 영상장치의 도움이나 측정도구의 개발로 정확한 측정이 필요하다 하겠다.

• 보건교육건강증진학회지
• /
• 제19권2호
• /
• pp.99-113
• /
• 2002

While the use of radiation in the medical field provides diagnosis and treatment with important benefits, we cannot deny that the radiation bombing causes some hindrances. The expansion of radiation use in modem medicine is essential, so the radiation use and preparation of proper measure for safety management has risen as a pressing subject. Therefore, in order to make defensive plans for the prevention of health obstacles to general users of radiation and for the provision of basic data of the health education programs to radiation workers by grasping the knowledge, attitude and behavior towards the radiation safety management of radiation workers in each medical institution and by analyzing the factors that affect the actions of radiation safety management, in this study we conducted questionnaires from September 26 to November 5, 2001 targeting 805 radiation workers in 108 medical institutions including university hospitals, general hospitals, hospitals, clinics and public health centers etc. located in Seoul, four metropolitan cities and small and medium cities, and has obtained the following results. 1. The average point of knowledge on the radiation safety management was 10.96 out of 15. As for the general characteristics, the level of knowledge on radiation safety management was higher with older age, high education background and longer career. 2. The average point of attitude on the radiation safety management was 66.36 out of 75. The attitude point for general characteristics were higher with higher education background, longer career and in case of universities, the level of attitude on the radiation safety management was high. 3. The average of action points on the radiation safety management was 56.09 out of 75. In general characteristics, the action level of radiation safety level was higher with older age, longer career, and the reception of radiation education and in case of university hospitals. 4. It is analyzed that the relation of knowledge, attitude and behavior on the radiation safety management is higher as the levels of knowledge and attitude on the radiation safety management is higher. 5. As a result of analyzing the factors that affect the knowledge on the radiation safety management, the variables that can be explained best was in the order of ‘the behavior on the radiation safety management’, ‘work career’, ‘the attitude on the radiation safety management’, and ‘school career’. 6. As a result of analyzing the factors that affect the attitude on the radiation safety management, the variables that can be explained best was in the order of ‘the behavior on the radiation safety management’, ‘the knowledge on the radiation safety management’, and ‘school career’. 7. As a result of analyzing the factors that affect the behavior on the radiation safety management, the variables that can be explained best was in the order of ‘the attitude on the radiation safety management’, ‘the knowledge on the radiation safety management’, and ‘the frequency of radiation education

• 대한방사선치료학회지
• /
• 제6권1호
• /
• pp.84-88
• /
• 1994

Proper evaluation about the penumbra is very important to improve the efficacy of radiation theraphy. There are two kinds of physical penumbra, geometric penumbra and transmission penumbra. In this study, we evaluated the variation of physical penumbra according to the varing enery level, changing the field size and depth. Physical penumbra width was decreased as the source size decreased, and as the SDD increased, but the consideration about the scatter radiation and mechanical stability is an important factor. For the two adjacent beams, upper collimator should be used and especially for Co-60 unit, it is efficient to use the extended collimator.

• 대한영상의학회지
• /
• 제83권4호
• /
• pp.783-791
• /
• 2022

영상의학 검사에 사용하는 방사선은 인체에 위해할 수 있으나 환자에게 도움이 되기 때문에 사용한다. 따라서 정당화와 최적화와 같은 방사선 방어원칙에 의거한 검사가 시행되어야 하며 필요한 만큼의 재검사만이 시행되어야 한다. 다양한 직종에 그 직종에 맞는 충분한 교육이 이루어져야만 방사선의 적절한 이용이 되리라 기대한다.

• 대한방사선기술학회지:방사선기술과학
• /
• 제22권2호
• /
• pp.57-60
• /
• 1999

Therapy equipment have taken progress for Cancer make use of Radiation for the normal tissue system make much of important for shielding. In modern times independent jaw setting to used equipment as possible make use of asymmetric field. Therefore, the asymmetric field be leave out of consideration wedge factor because of with used wedge for the most of part. These experimentation find out have an effect on the dosimetry of out put compared with of the difference between the symmetric field and asymmetic field for the wedge factor.

• 대한방사선치료학회지
• /
• 제11권1호
• /
• pp.53-59
• /
• 1999

The aim of this study is to improve the accuracy of field placement and junction between adjacent fields and block shielding through the use of a computed tomography(CT) simulator and virtual simulation. The information was acquired by assessment of Alderson Rando phantom image using CT simulator (I.Q. Xtra - Picker), determination of each field by virtual fluoroscopy of voxel IQ workstation AcQsim and colored critical structures that were obtained by contouring in virtual simulation. And also using a coronal, sagittal and axial view can determine the field and adjacent field gap correctly without calculation during the procedure. With the treatment planning by using the Helax TMS 4.0, the dose in the junction among the adjacent fields and the spinal cord and cribriform plate of the critical structure was evaluated by the dose volume histogram. The pilot image of coronal and sagittal view took about 2minutes and 26minutes to get 100 images. Image translation to the virtual simulation workstation took about 6minutes. Contouring a critical structure such as cribriform plate, spinal cord using a virtual fluoroscopy were eligible to determine a correct field and shielding. The process took about 20 minutes. As the result of the Helax planning, the dose distribution in adjacent field junction was ideal, and the dose level shows almost 100 percentage in the dose volume histogram of the spinal cord and cribriform plate CT simulation can get a correct therapy area due to enhancement of critical structures such as spinal cord and cribriform plate. In addition, using a Spiral CT scanner can be saved a lot of time to plan a simulation therefore this function can reduce difficulties to keep the patient position without any movements to the patient, physician and radiotherapy technician.

• Journal of Radiation Protection and Research
• /
• 제37권3호
• /
• pp.146-148
• /
• 2012

The use of GEANT4 simulation toolkit has increased in the radiation medical field for the design of treatment system and the calibration or validation of treatment plans. Moreover, it is used especially on calculating dose simulation using medical data for radiation therapy. However, using internal visualization tool of GEANT4 detector constructions on expressing dose result has deficiencies because it cannot display isodose line. No one has attempted to use this code to a real patient's data. Therefore, to complement this problem, using the result of gMocren that is a three-dimensional volume-visualizing tool, we tried to display a simulated dose distribution and isodose line on medical image. In addition, we have compared cross-validation on the result of gMocren and GEANT4 simulation with commercial radiation treatment planning system. We have extracted the analyzed data of dose distribution, using real patient's medical image data with a program based on Monte Carlo simulation and visualization tool for radiation isodose mapping.

• Journal of Yeungnam Medical Science
• /
• 제7권1호
• /
• pp.197-201
• /
• 1990

저자들은 비인강암의 포괄적인 방사선 치료의 일부로서 외부 방사선 치료에 뒤이은 고선량율 강내조사를 시행하여 부작용이나 합병증 없이 종양의 완전관해를 얻었기에 문헌고찰과 함께 보고하는 바이다.

• 전기전자학회논문지
• /
• 제15권2호
• /
• pp.143-148
• /
• 2011

MOS (Metal-Oxide Semconductor) devices among the most sensistive of all semiconductors to radiation, in particular ionizing radiation, showing much change even after a relatively low dose. The necessity of a radiation dosimeter robust enough for the working environment has increased in the fields of aerospace, radio-therapy, atomic power plant facilities, and other places where radiation exists. The power MOSFET (Metal-Oxide Semiconductor Field-Effect Transistor) has been tested for use as a gamma radiation dosimeter by measuring the variation of threshold voltage based on the quantity of dose, and a maximum total dose of 30 krad exposed to a $^{60}Co$ ${\gamma}$-radiation source, which is sensitive to environment parameters such as temperature. The gate oxide structures give the main influence on the changes in the electrical characteristics affected by irradiation. The variation of threshold voltage on the operating temperature has caused errors, and needs calibration. These effects can be overcome by adjusting gate oxide thickness and implanting impurity at the surface of well region in MOSFET.