• 한국방사선학회논문지
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• 제16권1호
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• pp.45-51
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• 2022

본 연구는 Chest CT에서 Care Dose 4D+Care kV System을 사용하여 촬영할 때와 CARE DOSE 4D 기능만을 사용했을 때, 그리고 Care Dose 4D와 관전압을 각각 80 kVp, 100 kVp, 120 kVp, 140 kVp로 변화를 주고 검사했을 때의 DLP값과 팬텀의 입사표면선량, 화질을 비교하여 최소의 선량으로 가장 최상의 화질을 유지할 수 있는 방법을 찾아보고자 하였다. DLP값은 Chest Care Dose 4D + Care kV semi 100으로 촬영하였을 때 6.727%, Chest Care Dose 4D + Care kV 로 촬영하였을 때 6.481% 감소하는 것으로 나타났다. Chest Non을 기준으로 입사표면선량에서 Chest Care Dose 4D + Care kV semi 100으로 검사하였을 때 16.519%, Chest Care Dose 4D + Care kV 로 검사하였을 때 15.705% 감소하는 것으로 나타났다. 영상의 화질에 대한 비교에서 Chest Non과 비교해서 Care Dose 4D + Care kV를 포함한 모든 촬영조건에서 SNR값과 CNR값을 비교한 결과 P>0.05로 유의한 차이가 없는 것으로 나타났다. Chest CT에서 Chest Care Dose 4D + Care kV를 사용해서 촬영한 결과 수동으로 kV와 mAS를 조정해서 얻은 최상의 조건의 결과 값과 비슷하게 피폭선량이 감소한 것으로 나타났으며, 영상의 SNR과 CNR에서도 유의한 차이가 없는 것으로 나타났다. Chest Care Dose 4D + Care kV 기능을 사용한다면 영상의 화질을 유지하면서 환자피폭을 줄일 수 있는 좋은 방법이라 생각된다.

• 대한방사선기술학회지:방사선기술과학
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• 제42권3호
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• pp.209-215
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• 2019

Comparison of the effective dose of the chest and the equivalent dose of the lens site in the radiation workers working at four medical institutions with the PET / CT room located in one metropolitan city and province from April 1 to June 30, 2018 Respectively. Radioactive medicine were measured at the time of dispensing and at the time of injection. In this experiment, the average dispensing time per patient was 5.7 minutes and the average injection time was 3.1 minutes. The equivalent dose at the lens site was $0.78{\mu}Sv/h$ for 1 mCi, and the effective dose for chest was $0.18{\mu}Sv/h$ per 1 mCi. The equivalent dose at the lens site during injection was $0.88{\mu}Sv/h$ per mCi and the effective dose of chest was $0.20{\mu}Sv/h$ per mCi. The daily effective dose of the chest was $0.9{\pm}0.6{\mu}Sv$ and the equivalent dose of the lens site was $3.6{\pm}1.4{\mu}Sv$ during daily dosing for 20 days. The effective dose of the chest during the day was $0.6{\pm}0.5{\mu}Sv$ and the equivalent dose of the lens was $2.2{\pm}1.0{\mu}Sv$. At the time of dispensing, the equivalent dose of the lens was $0.187{\pm}0.035mSv$, the effective dose of the chest was $0.137{\pm}0.055mSv$, the equivalent dose of the lens was $0.247{\pm}0.057mSv$, and the effective dose of the monthly chest was $0.187{\pm}0.021mSv$. As a result of the corresponding sample test, the equivalent dose and the effective dose of the chest, the effective dose of the chest, the effective dose of the chest, the effective dose of the chest, The equivalent dose of the lens and the effective dose of the chest were statistically significant (p<0.05) with a significance of 0.000. However, there was no statistically significant difference (p>0.05) between the equivalent dose and the effective dose of the chest, the equivalent dose of the lens at the time of injection, and the effective dose of the chest at 0.138 and 0.230, respectively.

• 대한안전경영과학회지
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• 제6권3호
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• pp.87-97
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• 2004

The National Health Insurance Act, the Industrial Health Act and the School Health Act require chest radiography at least once a year. In chest radiographic examination, most group examinations use indirect X-ray primarily aiming at diagnosing diseases and enhancing people's health. This study purposed to minimize radiation exposure dose by comparing it between direct and indirect chest X-ray studies. According to the result of comparing and analyzing radiation exposure dose, the average incident dose and penetrating dose were 0.929μGy and 0.179μGy respectively in direct chest X-ray and 6.807μGy and 1.337μGy in indirect chest X-ray In order to minimize radiation exposure dose at direct and indirect chest X-ray, indirect X-ray should be excluded from group examination if possible. Moreover, it is necessary to control the quality of equipment (Q/A & Q/C) systematically and to avoid using unqualified equipment in order to reduce radiation exposure dose.

• 대한디지털의료영상학회논문지
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• 제13권4호
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• pp.165-169
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• 2011

The purpose of this study is to compare the measurement result of radiation dose by using standard thoracic phantom and ionization chamber to advice proposal in the shooting condition of chest PA projection at hospitals recently. And to understand the change between radiation dose and resolution in different conditions. The period this study was from August 2010 to September 2010 and the subjects of the study was 3 general hospitals, 4 personal hospitals and 1 laboratory at the college. Finally we study with 6 DR, 1 CR, and 4 F/S equipments. Most hospitals met advice proposal, but some of the hospitals exceed advice dose from the result of our study. We can lower radiation dose about 25% when kVp is lowered about 20% in DR equipment. And we can lower radiation dose about 50% when mAs is lowered about 35%. The image quality was similar to the original in the study. Most hospitals which exceed advice dose were personal hospitals. The reason why it happened is that radiation dose for chest PA projection at personal hospitals is higher than general hospitals and the personal hospitals' equipments are older than general hospitals' equipments. We guess that patients' radiation dose of chest PA projection can be lowered from the result.

• 한국방사선학회논문지
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• 제8권7호
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• pp.401-408
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• 2014

본 연구는 CT로 흉부와 복부를 모두 검사하는 사람들을 대상으로 흉 복부를 1회에 통합으로 검사하는 경우와 2회에 걸쳐 흉부와 복부로 분할 검사하는 경우의 피폭선량을 비교하여 두 검사방법 간 피폭선량에 차이가 있는지 확인하고 이를 토대로 흉 복부 통합검사의 유용성에 대해 알아보고자 한다. 2013년 7월 1일부터 2014년 3월까지 E종합병원에 내원하여 흉부와 복부 CT 검사를 시행한 환자를 대상으로 하였다. 분석결과 성별에 따른 선량 분석에서 흉 복부 통합 검사 시 남성이 받는 유효 선량은 $33.10{\pm}2.75mSv$, 여성이 받는 유효 선량은 $31.66{\pm}3.12mSv$으로 나타났고, 흉부 단독 검사 시 남성이 받는 유효 선량은 $9.07{\pm}2.62mSv$, 여성이 받는 유효 선량은 $8.30{\pm}2.18mSv$으로 나타나, 남성의 피폭량이 여성에 비해 높게 나타났다(p < 0.05). 동일 성별 내에서 통합검사 시의 피폭량과 분할검사 시 피폭량의 합은 차이를 나타내지 않았고(p > 0.05), 각 검사 별 피폭선량은 통합검사, 흉부 단독 검사, 복부 단독 검사 시에 모두 환자권고선량(DRL) 보다 높았다(p < 0.05). 결론적으로 흉 복부 통합 검사는 분할검사 시와 비교하여 피폭선량에 차이가 없었으며, 주기적으로 흉부와 복부 CT 검사를 실시하여 추적조사를 시행하는 환자와 응급 외상환자 등에게 검사에 소요되는 시간을 줄여주고 조영제의 부작용 위험의 가능성을 줄여 줄 수 있는 유용성이 있다.

• Journal of Magnetics
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• 제21권2호
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• pp.293-297
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• 2016

For mastectomy patients, sufficient doses of radiation should be delivered to the surface of the chest wall to prevent recurrence. A bolus is used to increase the surface dose on the chest wall, whereby the surface dose is confirmed with the use of a virtual bolus during the computerized treatment-planning process. The purpose of this study is an examination of the difference between the dose of the computerized treatment plan and the dose that is measured on the bolus. Part of the left breast of an Anderson Rando phantom was removed, followed by the attainment of computed tomography (CT) images that were used as the basis for computerized treatment plans that were established with no bolus, a 3 mm-thick bolus, a 5 mm-thick bolus, and a 10 mm-thick bolus. For the computerized treatment plan, a prescribed dose regimen was dispensed daily and planning target volume (PTV) coverage was applied according to the RTOG 1304 guidelines. Using each of the established computerized treatment plans, chest-wall doses of 5 points were measured; this chest-wall dose was used as the standard for the analysis of this study, while the level of significance was set at P < 0.05. The measurement of the chest-wall dose with no bolus is 1.6 % to 10.3 % higher, and the differences of the minimum average and the maximum average of the five measurement points are -13.8 and -1.9, respectively (P < 0.05); however, when the bolus was used, the dosage was measured as 3.7 % to 9.2 % lower, and the differences of the minimum average and the maximum average are 7.4 and 9.0, -1.2 and 17.4, and 8.1 and 19.8 for 3 mm, 5 mm, and 10 mm, respectively (P < 0.05). As the thickness of the bolus is increased, the differences of the average surface dose are further increased. There are a variety of factors that affect the surface dose on the chest wall during post-mastectomy radiation therapy, for which verification is required; in particular, a consideration of the appropriate thickness and the number of uses when a bolus is used, and which has the greatest effect on the surface dose on the chest wall, is considered necessary.

• 한국방사선학회논문지
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• 제8권4호
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• pp.203-210
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• 2014

X선을 이용한 chest radiography는 일반적으로 180 cm의 SID에서 실시되고 있다. digital chest radiography에서 AEC를 적용하고 120 kVp, 320 mA에서 SID를 180 cm부터 340 cm까지 20 cm 단위로 증가시켜 가며 영상의 질과 환자선량의 관계를 알아보았다. chest phantom 영상의 정성적인 영상평가를 위해 VGA를, 정량적인 평가를 위해 SNR을 분석하였다. 선량은 ESAK로 측정하고 effective dose는 PCXMC를 이용하였다. 연구결과 일반적으로 시행되는 SID 180 cm를 기준으로 했을 때, ESAK의 경우 240 cm, 280 cm, 320 cm에서 각각 8.7%, 11.47%, 13.56%의 유의한 감소가 있었다. effective dose의 경우 전신에 대해 2.89%, 4.67%, 6.41%의 감소, 폐에서 5.08%, 6.98%, 9.6%의 감소가 관찰되었다. SNR의 경우 각각 9.04%, 8.24%, 11.46%의 감소가 관찰되었으며 특히, SID 260 cm ~ 300 cm 구간에서 8.03%의 작은 감소가 나타났고 SID 340 cm까지도 5.24로 5이하로 감소되지 않았다. VGA에서는 통계적으로 유의한 차이가 없는 진단적 가치가 높은 영상으로 평가되었다. 따라서 eigital chest radiography에서 SID를 300 cm까지 증가시킴으로 화질의 저하 없이 환자선량을 감소시킬 수 있을 것으로 기대된다.

• Nuclear Engineering and Technology
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• 제54권2호
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• pp.681-688
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• 2022

Dose monitoring in CT patients requires accurate dose estimation but most of the CT dose calculation tools are based on Caucasian computational phantoms. We established a library of organ dose conversion coefficients for Korean adults by using four Korean adult male and two female voxel phantoms combined with Monte Carlo simulation techniques. We calculated organ dose conversion coefficients for head, chest, abdomen and pelvis, and chest-abdomen-pelvis scans, and compared the results with the existing data calculated from Caucasian phantoms. We derived representative organ doses for Korean adults using Korean CT dose surveys combined with the dose conversion coefficients. The organ dose conversion coefficients from the Korean adult phantoms were slightly greater than those of the ICRP reference phantoms: up to 13% for the brain doses in head scans and up to 10% for the dose to the small intestine wall in abdominal scans. We derived Korean representative doses to major organs in head, chest, and AP scans using mean CTDI_vol values extracted from the Korean nationwide surveys conducted in 2008 and 2017. The Korean-specific organ dose conversion coefficients should be useful to readily estimate organ absorbed doses for Korean adult male and female patients undergoing CT scans.

• 한국방사선학회논문지
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• 제17권7호
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• pp.1033-1039
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• 2023

폐 스크리닝 검사로 이용되고 있는 저선량 흉부 CT는 Scan 범위 내에 관상동맥 석회화에 대한 정보도 함께 포함하고 있어 이를 이용한 관상동맥 석회화 판별의 유용성을 알아보고자 한다. 저선량 흉부 CT 검사와 관상동맥 석회화 점수(CACS) 검사를 같은 날 시행 받은 자들을 대상으로 하였다. 관상동맥 석회화 점수 검사 결과를 Coronary artery calcium score categories and risks 분류법을 참고하여 4개 그룹(Low: 1〈CACS〈10, Mild: 10〈CACS〈100, Moderate: 100〈CACS〈400, High: 400〈CACS)으로 각각 30명을 선정한 후 관상동맥 석회화 수치 측정 업무에 종사하고 있는 경력 15년차 이상 5명의 방사선사가 저선량 흉부 CT 영상에서 관상동맥 석회화 유무를 후향적으로 분석하였다. 저선량 흉부 CT 영상에서 5명의 관찰자가 통일되게 판독한 결과가 관상동맥 석회화점수 CT 검사 결과와 일치한 경우는 Low 그룹: 56%, Mild 그룹: 96.6%, Moderate 그룹: 100%, High 그룹: 100%로 나타났다. Low 그룹에서 5명의 관찰자 모두가 석회화를 관찰한 것은 30건 중 17건이었으며, 5명이 모두 판별 불가로 결정한 경우 7건이었다. 무증상 성인을 대상으로 저선량 흉부 CT 검사에서 석회화 점수가 15 이상인 경우에는 관상동맥 석회화를 100% 관찰할 수 있었다. 판별이 가능한 최소 석회화 수치는 1로, 피검자의 체형이 작거나 심장의 움직임이 최소가 되는 시점에서 스캔이 이루어지는 경우 매우 작은 석회화까지도 판별할 수 있다는 것을 알 수 있었다.

• 대한방사선기술학회지:방사선기술과학
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• 제22권1호
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• pp.13-20
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• 1999

This study is to calculate the exposed radiation dose using Bit method, NDD calculation method and monogram method without dosimeter. In addition, we can calculate the radiation dose from x-ray film density as a film badge. The authors examined the entrance skin dose from $2{\sim}3$ intercostal chest x-ray film density. We also studied the relationship between film density and equivalent dose in the each screen film system under the different radiation quality and the poor geometry condition of grid ratio. As results, we established the deductive method to define the entrance skindose from chest x-ray film density. The error range was found in the range $-13%{\sim}+l7%$ for between deductive entrance skindose and the $2{\sim}3$ intercostal chest x-ray film density to actual detective radiation dose with dosimeter.