• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2009년도 추계학술대회 논문집
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• pp.126-126
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• 2009

X-ray high-voltage generator is the most important part that can decide the radiation exposure dose affecting a patient or operator according to the characteristic. If decrease of X-ray radiation exposure dose and output characteristic of high-voltage generator is unstable, a patient or operator must be exposed to more radiation. This study measures and analyzes the exposure dose reproducibility and output characteristic according to a change of tube current on the various rectification methods of diagnostic X-ray equipment. It can find that quality bastardize and output is increased if voltage of X-ray tube is increased. Exposure dose reproducibility according to output of X-ray equipment is extremely excellent in inverter type, and is stable in order of following three-phase, a single-phase and condenser method. This study can find that the reply incidence of high-voltage generator is generated due to difference in rectification method, noise occurs in X-ray due to that, quality of an image is decreased due to that, and medical diagnosis can be failed due to that.

• 대한약침학회지
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• 제20권2호
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• pp.107-111
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• 2017

Objectives: Radiation is one of the most important sources of free radical (such as reactive oxygen species) production, which plays an essential role in the etiology of over hundred diseases. The aim of the study was to investigate some immune parameters and hematological indices in healthy workers of the Radiology Department, University Hospital of Mashhad, Iran. Methods: The study was performed on 50 healthy workers: 30 radiology staff as the case group and 20 laboratory workers as the control group. The radiation dose received by the radiology staff participating in the study was less than the annual maximum permissible level, 50 millisievert. Hematological parameters, lymphocyte proliferation and cytokine production were studied in both groups. Results: Among healthy radiology workers, the hematological indices did not differ statistically; however, their proliferation indices and $IFN-{\gamma}$ levels showed significant increases in parallel with decreases in the IL-4 levels as compared to controls. The immune system of workers exposed to low-dose ionizing radiation was found to be shifted from a Type 2 to a Type 1 response to promote cellular immunity. Conclusion: Based on our data, exposure to low-dose ionizing radiation may decrease the prevalence, frequency, and recurrence of various cancers and infectious diseases because of an increase in Th1-cell-based response, thus leading to more protection of the human body against tumor cells and foreign agents and possibly increased longevity. However, due to high rate of fluoroscopy use for interventional radiology, we suggest continuing research projects on radiation protection and hazards to prevent irreversible damage. As a recommendation, in future studies, radiology staff with a weakened immunity due to high radiation exposure should be considered as good choices to be treated using acupuncture techniques because acupuncture has been demonstrated to enhance the function and the number of immune cells.

• 대한방사선기술학회지:방사선기술과학
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• 제41권5호
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• pp.437-444
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• 2018

Whole-Body counters have been used to evaluate the internal contamination of gamma emitting radionuclides. Among the whole-body counters used in domestic nuclear facilities, Fastscan made by CANBERRA contains 2 NaI(Tl) detectors and is generally used to monitor the primary internal exposure. It has the advantage of achieving MDA even with short time measurements. Accuscan is a bed type, and has good energy resolution because it is composed of HPGe detector. Since the Accuscan with better energy resolution than Fastscan has better able to identify radionuclides, it is used to monitor secondary internal exposure. Some nuclear facilities have only Fastscan. We analyzed statistically whether Fastscan is enough to ensure accuracy and precision comparing with Accuscan. To do this, we prepared a CRM created by the Korea Research Institute of Standards and Science. We also obtained the data of 6 Fastscans and 5 Accuscans in domestic nuclear facilities. As a result of the study, although Fastscan compared with Accuscan is not as accurate as the Accuscan, the precision is statistically same. However, accuracy of Fastscan is in compliance with international standards except low energy range. In terms of accuracy and precision except radionuclides emitting low energy, it is possible to measure radioactivity inside workers even in nuclear facilities where only Fastscan is used.

• 대한디지털의료영상학회논문지
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• 제12권2호
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• pp.71-79
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• 2010

Thanks to the great development of technology in radiation, we are now able to reduce radiation exposure to the patients, and the radiographer and expenses in medical sector. We are also trying to produce ideal images which maintain useful information. These kinds of effort are increasing over the world. For that reason, we should get images which include necessary data of patients. Then it also can help to reduce radiation exposure to the patients. Therefore, we need to know the problems that cause a falling off in image's quality and check on generator in case of their electronic and mechanical errors. And moreover, we should anticipate the possibility of devices errors and prevent them with regular quality control. This investigation was conducted in medical institutions, institute of educations and hospitals. They are all in Seongnam-City. We used PMX-III, kVp meter to implement kVp test, mR / mAs output test, light fiel / beam alignment test, Reproducibility of exposure dose, half value layer test, reproducibility of exposure time test. in the case of hospitals, they perceive the importance of regular quality control and organize the regular quality control team so they can be satisfied with the error standard in most experiments. On the other hand, when it comes to medical institutions and institute of educations, they perceive the importance of regular quality control less than hospitals do. Radiographer need to understand the importance of regular quality control and practice it so they can get the fine ideal image with the lower dose to the patient.

• 한국산학기술학회논문지
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• 제17권8호
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• pp.442-448
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• 2016

연구목적은 의료용 방사선 장비를 운용하는 병원의 근무지별 종사자와 동일한 구역에서 임상실습을 수행한 학생과의 피폭선량을 비교하여 실습학생의 체계적인 피폭관리의 당위성을 제시하고자 하였다. 연구대상은 2014년 7월부터 8월까지 C대학병원 방사선구역에서 임상실습을 이수한 121명의 학생과 동 의료기관에 재직중인 종사자 62명(영상의학과 47명, 방사선종양학과 8명, 핵의학과 7명)을 대상으로 연구하였다. 연구방법은 측정을 위해 임상실습 기간인 8주간의 피폭선량을 측정하였으며, 종사자는 영상의학, 방사선종양학, 핵의학분야 종사자의 4개 그룹으로 구분하여 8주간의 심부선량과 표층선량을 비교하였다. 선량측정은 OSLD를 이용하였으며, 각 그룹의 평균의 차이는 분산분석(ANOVA)을 수행하였고 사후검정으로는 Duncan의 중다검정방법(muliple range test)을 이용하여 유의성을 분석하였다. 연구결과 심부선량은 영상의학과 $0.127{\pm}0.331mSv$, 방사선종양학과 $0.01{\pm}0.003mSv$, 핵의학과 $0.431{\pm}0.205mSv$, 실습생 $0.143{\pm}0.136mSv$로 나타났다. 표층선량은 영상의학과 $0.131{\pm}0.331mSv$, 방사선종양학과 $0.009{\pm}0.003mSv$, 핵의학과 $0.445{\pm}0.198mSv$, 실습생 $0.151{\pm}0.14mSv$로 나타났으며, 두 선량에서 모두 통계적으로 매우 유의한 차이를 보였다(p<.01). 연구결과를 통하여 실습생의 평균선량이 핵의학 종사자를 제외한 나머지 그룹보다 높게 나타났으므로 향후 방사선방어 측면에서 관리 대상자에 포함하여 체계적인 개인피폭 관리가 이루어지도록 개선이 필요할 것으로 사료된다.

• 한국의학물리학회:학술대회논문집
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• 한국의학물리학회 2006년도 제33회 추계학술대회 발표논문집
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• pp.135-135
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• 2006

• 핵의학기술
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• 제14권2호
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• pp.9-16
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• 2010

본 연구는 방사성동위원소의 의학적 이용도가 증가함에 따라 의료기관 핵의학과 방사선 관계종사자의 직무 별 방사선 이용에 대한 개인 방사선 피폭선량의 실태를 파악하여, 방사선 위험에 대해 경각심을 고취시키고, 방사선 관계종사자들에게 안전관리와 합리적인 피폭선량 관리에 도움을 주고자 분석하였다. 2007년 1월 1일부터 2009년 12월 31일까지 의료기관에서 근무하는 핵의학 방사선 관계종사자로 분류되어 개인 방사선피폭선량 측정을 정기적, 연속적으로 3년 간 조사 관리된 40명의 종사자를 대상으로 직종 별, 영상실 별, 연령 별, 선량구간 별, 직무 별 관련업무를 파악하여 심부선량에 대하여 연간평균피폭선량을 각각 분석하였다. 분석법으로는 빈도분석과 ANOVA를 시행하였다. 3년 간 영상실 별 연간피폭선량은 PET 및 PET/CT 영상실이 11.06~12.62 mSv로 가장 높은 피폭선량을 보였고, 감마카메라 주사실이 11.72 mSv로 높았으며, 직종 별 연간평균피폭선량은 임상병리사가 8.92 mSv로 가장 높았고, 방사선사 7.50 mSv, 간호사 2.61 mSv, 연구원 0.69 mSv, 접수 0.48 mSv, 의사 0.35 mSv 순으로 나타났으며, 세부업무에 따른 직무별 연간평균피폭선량은 PET 및 PET/CT 업무가 12.09 mSv로 가장 높은 피폭선량을 보였으며, 감마카메라 주사실이 11.72 mSv, 싸이크로트론 관련 합성 업무 8.92 mSv, 감마카메라 영상업무 4.92 mSv, 치료 및 안전관리 2.98 mSv, 간호사 업무 2.96 mSv, 관리 업무 1.72 mSv, 영상분석 업무 0.92 mSv, 판독업무 0.54 mSv, 접수업무 0.51 mSv, 연구업무 0.29 mSv 순으로 나타났다. 선량구간 별 연간평균피폭선량은 연구대상자의 15명(37.5%)이 1 mSv이하의 선량분포와 5명(12.5%)이 1.01~5.0 mSv이하의 선량분포를 가지고 있었고, 5.01~10.0mSv에서 14명(35.0%), 10.01~20.0 mSv에서 6명(15.0%)의 분포로 분석되었다. 연령에 따른 연간평균피폭선량은 방사선사 직종에서는 25~34세 종사자가 8.69 mSv로 가장 높은 평균선량을 보였고, 근무기간에 따른 연간평균피폭선량은 방사선사 직종에서 5~9년 종사자가 9.5 mSv로 가장 높은 평균선량을 나타냈다. 고용형태에 따른 연간평균피폭선량은 정규직 임상병리사 8.92 mSv, 방사선사 7.82 mSv, 계약직 방사선사 7.55 mSv, 인턴직 방사선사 5.62 mSv, 계약직 간호사 2.61 mSv, 정규직 연구원 0.69 mSv, 접수 0.55 mSv, 의사 0.35mSv 순으로 피폭을 받는 것으로 나타났다. 이와 같은 결과로 볼 때 의료기관에서 근무하는 핵의학 방사선 관계종사자의 대부분이 현재의 방사선 안전관리가 실효성 있게 이루어지고 있었으며, 직무특성에 따라 많은 차이가 있는 것을 알게 되었다. 그러나 방사선 피폭을 최소화시키는 노력이 필요하며, 이를 위해서 체계적 교육과 합리적 피폭량 관리를 위한 체계가 필요하다고 사료된다.

• Journal of Radiation Protection and Research
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• 제40권1호
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• pp.36-45
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• 2015

by providing objective information regarding medical radiation for elementary, middle, and high school students in Korea, who are expected to have a high ripple effect in education, and by analyzing behavioral changes in the selection of medical radiation, this study aimed to deduce the basis for educational intervention. The tools used in the study were a questionnaire, including questions about perception, knowledge, attitude, and behavior toward medical radiation; video and Power-point materials for the lesson; simulated radiation diagnosis selection form; and radiation treatment selection form to find out about behavior. A post-test demonstrated that the objective knowledge about medical radiation of all the students turned out to be significantly higher (p<0.000) after the lesson compared to before the lesson. However, there were no statistically significant behavioral changes. Rather, for high school students, the behavior of selecting medical radiography and treatment was significantly lower (p<0.000) after the lesson. For the more impressionable children in the lower grades, the lesson must not only provide an opportunity to understand and pay attention to diverse viewpoints, but also encourage them to make ethical decisions based on value. Since it can be predicted that attitude or behavioral changes through education or publicity can be expected from adults older than high school students, issues regarding dangers like radiation exposure must be treated as an issue of value judgment predicated on multifaceted considerations.

• 한국방사선학회논문지
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• 제11권5호
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• pp.321-328
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• 2017

D-Shuttle (Chiyoda Technol Corporation, Tokyo, Japan) 선량계를 이용하여 개인피폭관리 및 자연방사선량의 모니터링을 위한 기초자료를 제공하는데 연구의 목적이 있다. D-Shuttle을 이용하여 선량을 산출하였다. 선량보고서에서 400 일 노출되었을 때에 1.346 mSv 이었고, 연간선량 (annual dose per year)은 1.228 mSv/year, 평균시간선량 (average dose per hour)은 $0.014{\mu}Sv/hr$ 이었다. 국내의 개인 외부피폭선량 (1.295 mSv/year =Korea average natural individual external dose), 국내의 연간부가선량 (additional dose per year)은 -0.0663 mSv/year 이다. D-Shuttle은 방사선모니터링을 위한 개인선량계로 방사선의 검출성능 우수한 기능, 실시간 방사선 피폭관리, 방사선 작업의 경보 기능, 효율적이고 사용이 편리한 개인 방사선선량의 피폭관리로 ALARA에 매우 유용한 선량계로 사용할 수 있다. 방사선작업종사자와 지역주민의 방사선모니터링 측정기기로 병원, 산업, 의료현장, 원전사고 지역과 비파괴 분야의 위험한 지역에서 방사선모니터링으로 활용될 수 있다.

• Nuclear Engineering and Technology
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• 제52권8호
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• pp.1826-1833
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• 2020

Administration of stable iodine has been considered a best measure to protect the thyroid from internal irradiation by radioiodine intake, and its efficacy on thyroid protection has been quantitatively evaluated in several simulation studies on the basis of simple iodine biokinetic models (i.e., three-compartment model). However, the new iodine biokinetic model adopted by the International Commission on Radiological Protection interprets and expresses the thyroid blocking phenomenon differently. Therefore, in this study, the new model was analyzed in terms of thyroid blocking and implemented to reassess the protective effects and to produce dosimetric data. The biokinetic model calculation was performed using computation modules developed by authors, and the results were compared with those of experimental data and prior simulation studies. The new model predicted protective effects that were generally consistent with those of experimental data, except for those in the range of stable iodine administration -72 h before radioiodine exposure. Additionally, the dosimetric data calculated in this study demonstrates a critical limitation of the three-compartment model in predicting bioassay functions, and indicated that dose assessment 1 d after exposure would result in a similar dose estimate irrespective of the administration time of stable iodine.