Using radio-photoluminescence glass dosimeter, we measured the entrance skin dose (ESD) in 46 cases and analyzed the correlations between maximum ESD and angiographic parameters total fluoroscopic ...time (TFT); number of digital subtraction angiography (DSA) frames, air kerma at the interventional reference point (AK), and dose-area product (DAP) to estimate the maximum ESD in real time. Mean (± standard deviation) maximum ESD, dose of the right lens, and dose of the left lens were 431.2±135.8 mGy, 33.6±15.5 mGy, and 58.5±35.0 mGy, respectively. Correlation coefficients (r) between maximum ESD and TFT, number of DSA frames, AK, and DAP were r=0.379 (P<0.01), r=0.702 (P<0.001), r=0.825 (P<0.001), and r=0.709 (P<0.001), respectively. AK was identified as the most useful parameter for real-time prediction of maximum ESD. This study should contribute to the development of new diagnostic reference levels in our country.
영상의학 분야에서 컴퓨터단층촬영(Computed Tomography, CT) 검사는 가장 보편화된 검사 방법 중의 하나이고 병원에서 이용 빈도가 매우 높은 검사 방법 중의 하나이다. 그러나 다른 검사 방법에 비해 매우 높은 방사선 피폭을 동반한다. 피폭 저감화를 위해서 CT 검사가 꼭 필요한 경우만 검사를 시행하는 방법과 꼭 필요해서 검사를 시행하는 ...경우에도 검사의 목적에 부합하고 적은 선량으로 검사를 시행할 수 있는 프로토콜을 사용해야 한다. 본 연구에서는 지역의 대표적 종합병원에서 사용하고 있는 가장 최신의 방사선량 사용정보를 알아보고 진단기준수준(Dignostic Reference Level, DRL)을 개발하고자 하였다. 실험결과 두부 CT, 복부 CT검사에서 DLP는 NRPB(U.K) 와 Korea DRL보다 높게 나타났다. 흉부 CT의 사용 DLP 값은 CT장치 3종 모두 낮게 나타났다. 해당 병원에서는 CT 검사 시 피폭 저감화를 위한 노력을 해야 하는 것을 알 수 있었고 특히 두부 CT, 복부 CT에서 피폭 저감의 노력이 필요하다고 판단한다.
In the field of imaging medicine, computed tomography is one of the most common test methods and one of the most frequently used test methods in hospitals. However, it is accompanied by a very high radiation exposure compared to other test methods. In order to reduce exposure, CT scans should be performed only when absolutely necessary, and even if the tests are performed because they are absolutely necessary, a protocol that serves the purpose of the test and allows the test to be performed in a small dose should be used. In this study, we wanted to learn about the most up-to-date radiation dose usage information used by the region's leading general hospitals and develop a diagnostic reference level (DRL). In the experimental results, the Head CT and Abdomen CT tests showed that DLP was higher than the NRPB (U.K) and Korean DRL. The DLP values used by Chest CT were low for all 3 types of CT devices. The hospital found that efforts to reduce exposure should be made during CT examinations, and in particular, Head CT and Abdomen CT determined that efforts to reduce exposure were necessary.
Abstract Purpose To establish local diagnostic reference levels (DRL) for typical radiographic examinations in a fully digital imaging institution. Methods The initial survey included 6 standard ...radiographic projections performed in 19 computed radiography (CR) and digital radiography (DR) rooms. Because of the expected difference in the performance, the local reference levels were analysed separately for those 2 modalities. Data of 226 average size adult patients were included in the analysis. Entrance surface dose (ESD) was calculated from the recorded radiographic techniques and tube radiation output measurements. After observing wide variations in the results of the patient survey, the examinations were repeated by using anthropomorphic phantoms. Initial efforts to understand the reasons for dose variations were focused on CR chest, abdomen, pelvis, and lumbar spine examinations. Results The average size patient doses for similar examinations were lower in the DR rooms than in the CR rooms by factors that ranged from 1.2 to 3, with the exception of the chest examination. Standardization of the CR exposure index value allowed us to decrease ESD by 21%-30%. Detector sensitivity had an insignificant effect (2%) on ESD; proper collimation lowered the dose by 17%. However, the major effect, up to 46% difference, was found because of antiscatter grids cutoff. Conclusion Modality specific local diagnostic reference levels for standard examinations have been established in a large digital imaging department with hybrid modalities. Typically the local reference values were lower than those recommended in Safety Code 35, except for CR chests. Factors that affect the dose variations have been investigated and determined.
본 연구에서는 국가에서 제공하는 일반엑스선검사의 진단참고수준 중 다빈도 검사에 대한 유효선량을 몬테카를로 시뮬레이션을 이용하여 평가하고자 하였다. 일반엑스선검사의 진단참고수준에 대한 유효선량 평가는 가장 다빈도로 검사되는 두부 전후면(Anterior-Posterior; AP), 흉부 후전면(Posterior-Anterior; PA), 흉부 ...측면(Lateral; LAT), 복부 AP, 골반 AP 등 총 5개의 검사 부위로 선정하였다. 몬테카를로 시뮬레이션에 사용되는 관전압과 관전류 등의 물리적 조건은 국내 조건의 대표성을 나타내기 위해 질병관리청의 자료를 사용하였다. 국내 의료방사선 피폭량 평가를 위해 사용된 인체 전산 팬텀은 한국인의 표준 체형을 대표할 수 있고 국제규격의 ICRP 103 기반으로 제작된 HDRK-Man 전산 인체팬텀을 몬테카를로 시뮬레이션에 적용하였다. 그 결과, 성인 남성을 기준으로 두부 AP의 진단참고수준에 해당되는 유효선량은 0.086 mSv, 흉부 PA는 0.05 mSv, 흉부 LAT는 0.354 mSv, 복부 AP는 0.548 mSv, 골반 AP는 0.451 mSv로 평가되었다.
In this study, the effective dose for frequently general radiography among the diagnostic reference level (DRL) for examinations provided by the government in Korea was evaluated using the Monte Carlo N-Particle eXtended (MCNPX) simulation tool. We were selected to evaluate for a total of 5 examination sites which included head anterior-posterior, chest (posterior-anterior, lateral), abdomen anterior-posterior and pelvis anterior-posterior. Physical conditions such as tube voltage and tube current used in MCNPX simulation were used in domestic conditions of the Korea Disease Control and Prevention Agency (KDCA). To evaluate domestic medical radiation exposure, we used the HDRK-Man computerized human phantom manufactured based on the international standard ICRP 103 that was applied to the MCNPX simulation. The phantom could represent the standard body shape of Koreans. As a results, the effective dose corresponding to the DRL based on adult males of head anterior-posterior position was 0.086 mSv, chest posterior-anterior position was 0.05 mSv, chest lateral was 0.354 mSv, abdomen anterior-posterior position was 0.548 mSv, and pelvis anterior-posterior position was 0.451 mSv.
Radiation safety in computed tomography (CT) scanners is of concern due its widespread use in the field of radiological imaging. This study intends to evaluate radiation doses imparted to patients ...undergoing thorax, abdomen and pelvic CT examinations and formulate regional diagnostic reference levels (DRL) in Tamil Nadu, South India. In-site CT dose measurement was performed in 127 CT scanners in Tamil Nadu for a period of 2 years as a part of the Atomic Energy Regulatory Board (AERB)-funded project. Out of the 127 CT scanners,13 were conventional; 53 single-slice helical scanners (SSHS); 44 multislice CT (MSCT) scanners; and 17 refurbished scanners. CT dose index (CTDI) was measured using a 32-cm polymethyl methacrylate (PMMA)-body phantom in each CT scanner. Dose length product (DLP) for different anatomical regions was generated using CTDI values. The regional DRLs for thorax, abdomen and pelvis examinations were 557, 521 and 294 mGy cm, respectively. The mean effective dose was estimated using the DLP values and was found to be 8.04, 6.69 and 4.79 mSv for thorax, abdomen and pelvic CT examinations, respectively. The establishment of DRLs in this study is the first step towards optimization of CT doses in the Indian context.
Summary
At the present time, there is no national surveillance of the increasing ionising radiation dose to the population from diagnostic imaging procedures. As the number of procedures undertaken ...is increasing, it is expected that the population dose will also increase. A substantial component of that contribution is from multi‐detector computed tomography (MDCT) systems. The Australian Radiation Protection & Nuclear Safety Agency (ARPANSA) estimates that the growth in MDCT scans, based on Medicare Benefits Schedule data, is increasing at approximately 9% per annum, with over 2 million MDCT scans being performed in 2009. The caput effective dose (mSv) from this modality is expected to be approaching 1.2 mSv per annum. If current dose‐detriment models are accurate, the risk of induction of carcinogenic detriment from current MDCT scanning patterns is a significant public health issue that requires a concerted and ongoing response.
For the application of ionising radiation in medicine, the International Commission on Radiological Protection recommends the conservative philosophy of Justification and Optimisation via the measurement of ‘Diagnostic Reference Levels’ to limit the potential overexposure of patients and decrease the overall population burden. The Australian government has commissioned ARPANSA to survey, calculate and construct representative national diagnostic reference levels for diagnostic imaging modalities that use ionising radiation. This will be achieved in close consultation with the professional organisations who represent the professionals responsible for the use of ionising radiation in diagnostic imaging.
Estimates of patient doses are generally required to justify and to optimize the process of diagnostic radiology. To ensure that the dose to the patient in medical exposure is as low as can be ...reasonably achieved, diagnostic reference levels are the first step in the optimization of radiation protection subsequent to justification. The diagnostic reference levels provide a practical method for measuring, comparing, and managing patient doses to develop quality assurance and clinical audit programs in medical imaging.
본 연구의 목적은 디지털 방사선 환경에서 두부 방사선검사 시 진단참고수준(DRL)에서 제시하는 검사 조건과 현재 임상에서 적용하고 있는 검사 조건 적용 시 선량과 화질의 차이 비교를 통해, 디지털 방사선 환경에 적절한 두부 방사선검사의 조건에 대해 고찰하고자 한다. 본 연구는 두부모형팬텀을 대상으로 하였으며, 조사 조건은 임상에서 사용하는 ...조건(Clinic)과 DRL값(DRL 75 ), DRL 평균값(DRL mean )으로 구분하여 실험하였다. 선량은 입사표면선량(ESD)을 측정하였고, 화질은 신호 대 잡음비와 대조도 대 잡음비를 측정하여 비교 분석하였다. 검사 조건 변화에 따른 skull AP ESD의 평균값은 Clinic 1214.03±4.21 μGy, DRL75 3017.83±8.14 μGy, DRL mean 2283.50±7.09 μGy이었으며, skull Lat. ESD의 평균값은 Clinic 762.79±3.54 μGy, DRL 75 2168.57±10.83 μGy, DRLmean 1654.43±6.48 μGy로 통계적으로 유의한 것으로 나타났다(p<0.01). 안와, 상악동, 전두동, 터키안장에서 측정한 SNR과 CNR의 평균값은 통계적으로 유의하였다(p<0.01). 본 연구 결과 임상에서 사용하는 조건이 DRL에 비해 AP는 약 58%, Lat.은 약 70% 정도의 낮은 선량 수치를 나타내었으며, 화질 측면에서 정성적인 차이가 없었다. 본 연구를 통해 디지털 방사선 환경에 적합한 새로운 진단참고 수준에 대해 고려해 볼 필요가 있으며, 그에 따른 선량의 저감화가 이루어져야 할 것으로 사료된다.
The purpose of this study is to compare the difference in dose and image quality when applying the diagnostic reference level (DRL) test conditions for head radiography in a digital radiation environment and the test conditions currently applied in clinical practice. I would like to review the conditions of radiographic examination. In this study, the head model phantom was targeted, and the investigation conditions were divided into clinical conditions (Clinic), DRL value (DRL 75 ), and DRL average value (DRL mean ). For dose, Enterance surface dose (ESD) was measured, and for image quality, signal-to-noise ratio and contrast-to-noise ratio were measured and analyzed for comparison. The average values of skull anterior posterior(AP) ESD according to the changes in test conditions were Clinic 1214.03±4.21 μGy, DRL 75 3017.83±8.14 μGy, DRL mean 2283.50±7.09 μGy, and skull lateral (Lat). The average value of ESD was statistically significant with Clinic 762.79±3.54 μGy, DRL 75 2168.57±10.83 μGy, and DRL mean 1654.43±6.48 μGy (p<0.01). The average values of SNR and CNR measured in the orbital, maxillary sinus, frontal sinus, and sella turcica were statistically significant (p<0.01). As a result of this study, compared to DRL, the conditions used in clinical practice showed lower dose levels of about 58% for AP and about 70% for Lat., and there was no qualitative difference in terms of image quality. Through this study, it is necessary to consider a new diagnostic reference level suitable for the digital radiation environment, and it is considered that the dose should be reduced accordingly.