• 대한방사선기술학회지:방사선기술과학
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• 제41권6호
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• pp.595-602
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• 2018

Quality control (QC) of Computed Tomography (CT) devices is based on image quality measurement on AAPM CT phantom which is a standard phantom. Although it is possible to control the accuracy of the CT apparatus, it is expensive and has a disadvantage of low penetration rate. Therefore, in this study, we make image quality measurement phantom at low cost using FFF (Fused Filament Fabrication) type three-dimensional printer and try to analyze the usefulness, compare it with existing standard phantom. To print a phantom, We used three-dimensional printer of the FFF system and PLA (Poly Lactic Acid, density: $1.24g/cm^3$) filament, and the CT device of 64 MDCT (Aquilion CX, Toshiba, Japan). In addition, we printed a phantom using three-dimensional printer after design using various tool based on existing standard phantom. For image quality evaluation, AAPM CT phantom and self-generated phantom were measured 10 times for each block. The measured data were analyzed for significance using the Mannwhiteney U-test of SPSS (Version 22.0, SPSS, Chicago, IL, USA). As a result of the analysis, phantom fabricated with three-dimensional printer and standard phantom showed no significant difference (p>0.05). Furthermore, we confirmed that image quality measurement performance of a phantom using three-dimensional printer is similar to the existing standard phantom. In conclusion, we confirmed the possibility of low cost phantom fabrication using three dimensional printer.

• 대한디지털의료영상학회논문지
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• 제8권1호
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• pp.57-62
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• 2006

• 대한방사선기술학회지:방사선기술과학
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• 제27권4호
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• pp.49-54
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• 2004

목 적 : X-선을 이용한 유방촬영술에서 영상수용시스템과 현상시스템에 따른 화질 관리를 하고자 phantom을 이용하여 영상의 유용성을 평가하는데 있다. 실험방법 : 동일한 유방촬영장치를 이용하고 (모든 조건 동일) 영상수용시스템인 필름/증감지와 현상시스템을 control 그룹과 4개의 그룹으로 분류 실험하였다. Control group은 영상수용시스템(A사의 편면증감지, 편면필름), 자동현상시스템(A사의 mammo용 자동현상기), 현상액등(A사의 mammo용 자동현상액)의 시스템이 동일하며 A group은 영상수용시스템이 다르고(A사의 양면증감지, 양면 필름으로 mammo용이 아니고 일반촬영용임) 자동현상시스템, 현상액등의 시스템 동일하며 B group은 영상수용시스템 동일, 자동현상시스템, 현상액등의 시스템이 다르며(B사의 자동현상기이며 일반촬영용) C group은 영상수용시스템 및 자동현상시스템 현상액시스템이 다르며(A사의 양면증감지, 필름의 조합과 B사의 일반촬영용 자동현상기 및 현상액), D group은 영상수용시스템 동일, 수동현상의 경우로 실험하였다. 결 과 : phantom 1에서 평가항목은 3개였으며 32점 중에서 control 그룹은 29점, A 그룹은 25점, B 그룹은 16점, C 그룹은 11.5점, D 그룹은 28.5로 B, C 그룹을 제외하고 우수한 화질을 표현 할 수 있는 시스템이었다. phantom 2에서는 평가항목은 4개였으며, 38점 중에서 control 그룹이 38점, A 그룹은 30점, B 그룹은 16, C 그룹은 12.5, D 그룹은 37점을 각각 얻었으며 phantom 2에서도 B, C 그룹은 화질이 불량한 촬영시스템으로 나타났다. 결 론 : phantom 1, 2 촬영에서 얻어진 유방촬영시스템에서 화질에 영향을 미치고있는 인자는 모든 촬영인자에서 가지고는 있지만 이중에서도 시스템에 대한 것으로는 영상수용시스템과 현상시스템 등이 화질에 대한 영향이 크게 미치고 있었다.

• Journal of Radiation Protection and Research
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• 제41권3호
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• pp.274-281
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• 2016

Background: Whole-body counters are widely used to evaluate internal contamination of the internal presence of gamma-emitting radionuclides. In internal dosimetry, it is a basic requirement that quality control procedures be applied to verify the reliability of the measured results. The implementation of intercomparison programs plays an important role in quality control, and the accuracy of the calibration and the reliability of the results should be verified through intercomparison. In this study, we evaluated the reliability of 2 whole-body counting systems using 2 calibration methods. Materials and Methods: In this study, 2 whole-body counters were calibrated using a reference male bottle manikin absorption (BOMAB) phantom and a Radiation Management Corporation (RMC-II) phantom. The reliability of the whole-body counting systems was evaluated by performing an intercomparison with International Atomic Energy Agencyto assess counting efficiency according to the type of the phantom. Results and Discussion: In the analysis of counting efficiency using the BOMAB phantom, the performance criteria of the counters were satisfied. The relative bias of activity for all radionuclides was -0.16 to 0.01 in the Fastscan and -0.01 to 0.03 in the Accuscan. However, when counting efficiency was analyzed using the RMC- II phantom, the relative bias of $^{241}Am$ activity was -0.49 in the Fastscan and 0.55 in the Accuscan, indicating that its performance criteria was not satisfactory. Conclusion: The intercomparison process demonstrated the reliability of whole-body counting systems calibrated with a BOMAB phantom. However, when the RMC-II phantom was used, the accuracy of measurements decreased for low-energy nuclides. Therefore, it appears that the RMC-II phantom should only be used for efficiency calibration for high-energy nuclides. Moreover, a novel phantom capable of matching the efficiency of the BOMAB phantom in low-energy nuclides should be developed.

• 대한방사선기술학회지:방사선기술과학
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• 제45권2호
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• pp.103-109
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• 2022

To maintain improved image quality in mammography, the quality control process is performed using the ACR (American college of radiology) phantom. In addition, many studied were performed by fabricating the customized breast phantom to provide more information in mammography. Thus, the purpose of this study was to evaluate the image quality by designing the modified ACR phantoms. The five modified acrlylic ACR phantoms were designed by considering insert position and phantom thickness. The phantoms were consisted of 4.5, 3.0, and 1.5 cm in terms of phantom thickness, and 3.0, 2.0, and 0.5 cm in terms of insert position, respectively. The acquired images were evaluated by PSNR (peak signal to noise ratio), RMSE (root mean square error), CC (correlation coefficient), CNR (contrast to noise ratio), and COV (coefficient of variation). Based on the similarity analysis, the result is suitable between conventional and new designed phantoms. In addition, the CNR and COV results in terms of insert position showed that image quality for 0.5 cm was 2.3 and 27.4% improved compared with 2 and 3 cm, respectively. According to phantom thickness results, the CNR result for 1.5 cm and COV result for 4.5 cm were 50.1 and 62.7% improved compared with that those conditions. In conclusion, we confirmed that the image quality depends on the breast size and thickness through modified ACR phantom study.

• 대한방사선기술학회지:방사선기술과학
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• 제46권1호
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• pp.29-36
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• 2023

To have highly reliable diagnostic performance of it, this study comparatively analyzed spatial resolution of SPECT images and interrelationship depending on the changes of system uniformity of ga㎜a camera through phantom analysis. This study chose 6 kinds of results from quality control (uniformity) of triple head SPECT scanner operated in an university hospital in Seoul for six months. Then, study measured spatial resolutions (FWHM) of the images restructured by injecting radiopharmaceuticals to Jaszczak phantom, and doing SPECT scanning under the same conditions as clinical ones using the analytical program (image J). Quality controls performed by the experimental institution showed that differential uniformity of UFOV ranged from 2.76% to 7.61% (4.46±2.07), and integral uniformity of UFOV ranged from 1.98% to 5.42% (3.01±1.43). Meanwhile, Quantitative analysis evaluations of phantom images depending on the changes of uniformity of SPECT scanner detector showed that as the uniformity values of UFOV and CFOV decreased, FWHM values of phantom images decreased from 8.5 ㎜ to 5.8 ㎜. That is, it was quantitatively identified that the higher uniformity of detector is, the better spatial resolution of images gets (P<0.05). It is very important to perform continuous and consistent quality control of the nuclear medicinal system, and users should be clearly conscious of it.

• 한국콘텐츠학회논문지
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• 제11권1호
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• pp.236-244
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• 2011

성능이 저하된 IVR 장치의 지속적 사용은 환자 및 시술자의 방사선 피폭을 증가시킬 뿐 아니라, 잘못된 영상정보를 제공함으로써 환자에게 심각한 영향을 끼칠 수 있다. 따라서 이번 연구에서는 IVR장치의 성능평가를 위한 적절한 시험방법 및 검사기준을 마련하고자 하였다. IVR장치의 국내현황 및 규격을 조사하였으며, 표준팬텀을 이용하여 국내 IVR장치의 성능을 현장 측정함으로써, 국내 실정에 맞는 적절한 IVR 장치의 화질 및 성능평가 기준을 설정하였다. 장치의 기본적 성능에 관한 검사를 위해 관전압시험, 관전류 시험, 반가층 시험을 실시하며, NEMA stndard XR-21 Phantom을 표준팬텀으로 사용하여 화질 및 선량 평가를 하도록 하였다. 표준팬텀을 이용한 검사항목은 image-field geometry, spatial resolution, low-contrast iodine detectability, wire resolution, phantom entrance dose이다. 또한 매일, 매주, 1개월, 3개월, 6개월 및 1년 주기의 평가항목을 설정하였다. 장치의 성능기준은 진단용방사선안전관리 규정을 준용하여 kVp시험은 평균오차 ${\pm}10%$, mA시험은 평균오차 ${\pm}15%$, 반가층시험은 80kVp에서 최소 2.3mmAl으로 설정하였다. 표준팬텀의 검사기준은 image-field geometry에서 최소 acceptable이 나와야 하며, spatial resolution은 Image Intensifier 나 detector 크기기준으로 34-40cm은 0.8 lp/mm, 28-33cm은 1.0lp/mm, 22-27cm은 1.2 lp/mm이상이 나와야 한다. low contrast iodine detectability는 최소농도 200mg/cc 이상 보여야 하며, phantom entrance dose는 10R/min을 초과해서는 안 된다. Wire resolution은 정지 상태에서 최소 0.012인치까지 보여야 하며, 움직일 때 최소 0.022인치까지 보여야 한다.

• 한국임상수의학회지
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• 제39권3호
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• pp.114-120
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• 2022

The purpose of this study is to examine the status of quality control using multipurpose phantom of ultrasound equipment used in hospital of veterinary college in South Korea by using ATS-539 multipurpose phantom so as to examine quantitative and objective new image evaluation method. Specialists discussed and analyzed multipurpose phantom images acquired by using convex transducer of 10 ultrasound imaging devices, currently used in 9 veterinary colleges, at 4.0-6.0 MHz. Total 8 items that can be measured with ATS-539 multipurpose phantom including dead zone, vertical and horizontal measurement, axial/lateral resolution, sensitivity, focal zone, functional resolution and gray scale/dynamic range were evaluated. For qualitative evaluation, valid decisions were made based on dead zone, axial/lateral resolution, and gray scale/dynamic range which are resolution index, and coefficient of variation (COV) and blind referenceless image spatial quality evaluator (BRISQUE) were found to increase objectivity. As a result of experiment, all the targeted ultrasonic devices were found appropriate from qualitative evaluation items of dead zone, axial/lateral resolution, and gray scale/dynamic range. In other evaluation items, they were found to be appropriate from focal zone and vertical measurement of quantitative evaluation while inappropriate from horizontal measurement, sensitivity, and functional resolution. COV value was 0.12 ± 0.04, and BRISQUE value was 47.77 ± 2.77, both analysis results show that the noise level of all ultrasonic devices was located within tolerance range. Upon image examination using ATS-539 multipurpose phantom, they were 100% appropriate with inspection standards of dead zone, axial/lateral resolution, and gray scale/dynamic range, and besides, focal zone and functional resolution can be used as evaluation items. In the field of veterinary medicine, 8 standard items using ATS-539 multipurpose phantom and image evaluation items using COV and BRISQUE can be used as standards for quality control of ultrasonography machine.

• 대한방사선기술학회지:방사선기술과학
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• 제46권1호
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• pp.1-8
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• 2023

As the demand for bone mineral density testing increases in Korea, which is close to an aging society, it is necessary to evaluate the repeatability of equipment such as femur phantom other than l-spine for more accurate diagnosis. However, in clinical practice, it is often not possible to proceed such evaluation due to insufficient quality control conditions. Therefore, this study is to evaluate the usefulness of the femur phantom after fabricating the same using 3D printing technology. The femur phantom was output using GlowFill filament and FDM 3D printing type. Each phantom was repeatedly scaned 20 times to compare whether the existing l-spine phantom and the fabricated femur phantom were suitable as a phantom for quality control. Each time the seven researchers took three times, the location of the femur phantom was readjusted, and then scanned to confirm the error between the researchers. As a result of conducting repeatability evaluation using femur phantom, the coefficient of variation rate was 2%, which was within the minimum precision tolerance of 2.5%. The reproducibility between the researcher was also found to be suitable as the average coefficient of variation was 0.031 and the coefficient of variation rate was 3.1%, which was within the minimum precision error range of 5%. In conclusion, it is considered that the prospective attitude and usefulness of the femur phantom fabricated by 3D printing in clinical practice will be sufficient.

• 핵의학기술
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• 제27권1호
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• pp.47-54
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• 2023

Purpose PET-CT imaging require an appropriate quality assurance system to achieve high efficiency and reliability. Quality control is essential for improving the quality of care and patient safety. Currently, there are performance evaluation methods of UN2-1994 and UN2-2001 proposed by NEMA and IEC for PET-CT image evaluation. In this study, we compare phantom images with the same experiments before and after PET-CT 3D normalization and well counter correction and evaluate the usefulness of quality control. Materials and methods Discovery 690 (General Electric Healthcare, USA) PET-CT equiptment was used to perform 3D normalization and well counter correction as recommended by GE Healthcare. Based on the recovery coefficients for the six spheres of the NEMA IEC Body Phantom recommended by the EARL. 20kBq/㎖ of ¹⁸F was injected into the sphere of the phantom and 2kBq/㎖ of ¹⁸F was injected into the body of phantom. PET-CT scan was performed with a radioacitivity ratio of 10:1. Images were reconstructed by appliying TOF+PSF+TOF, OSEM+PSF, OSEM and Gaussian filter 4.0, 4.5, 5.0, 5.5, 6.0, 6,5 mm with matrix size 128×128, slice thickness 3.75 mm, iteration 2, subset 16 conditions. The PET image was attenuation corrected using the CT images and analyzed using software program AW 4.7 (General Electric Healthcare, USA). The ROI was set to fit 6 spheres in the CT image, RC (Recovery Coefficient) was measured after fusion of PET and CT. Statistical analysis was performed wilcoxon signed rank test using R. Results Overall, after the quality control items were performed, the recovery coefficient of the phantom image increased and measured. Recovery coefficient according to the image reconstruction increased in the order TOF+PSF, TOF, OSEM+PSF, before and after quality control, RCmax increased by OSEM 0.13, OSEM+PSF 0.16, TOF 0.16, TOF+PSF 0.15 and RCmean increased by OSEM 0.09, OSEM+PSF 0.09, TOF 0.106, TOF+PSF 0.10. Both groups showed a statistically significant difference in Wilcoxon signed rank test results (P value<0.001). Conclusion PET-CT system require quality assurance to achieve high efficiency and reliability. Standardized intervals and procedures should be followed for quality control. We hope that this study will be a good opportunity to think about the importance of quality control in PET-CT