• 대한방사선치료학회지
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• 제31권2호
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• pp.13-24
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• 2019

목 적: 두경부 토모테라피 치료 시 다양한 이유로 CT scan range가 부족한 상황이 발생한다. CT scan range는 정확한 선량 계산에 영향을 주기 때문에 Re-CT Simulation이 좋지만 환자의 피폭선량 증가와 불편함, 치료일정 변경 등 문제점을 갖는다. 이에 본 저자는 기존 CT scan range에서 Plan setup parameter 변화를 통해 Re-CT Simulation 없이 정확한 치료계획에 필요한 최소한의 CT scan range를 평가해보고자 한다. 대상 및 방법: CT simulator(Discovery CT590 RT, GE, USA)와 In House Head & Neck Phantom을 이용하였고, Target의 끝단에서 0.25~3.0cm까지 0.25cm씩 증가시켜 CT scan range 별 이미지를 획득하였다. Target과 정상 장기를 Head & Neck Phantom에 등록하고 ACCURAY Precision^® 이용하여 치료계획을 설계하였다. 처방 선량은 Daily 2.2Gy, 27 Fxs, Total Dose 59.4Gy, Target은 처방 선량의 95~107%, 정상 장기는 SMC Protocol에 맞춰 치료계획을 설계하였다. 동일한 치료계획 조건에서 Field Width(FW)와 Jaw 모드를 고려한 5가지 방법(Fixed-1cm, Fixed-2.5cm, Fixed-5cm, Dynamic-2.5cm Dynamic-5cm)과 2가지 Pitch(0.43, 0.287)의 Plan Setup parameter로 치료계획을 설계하였다. 각 치료계획에 대한 선량 전달의 정확성은 EBT3 film과 RIT(Complete Version 6.7, RIT, USA)를 이용하여 분석하였다. 결 과: Target의 처방 선량과 정상 장기의 견딤선량(Tolerance dose)을 만족한 치료계획(SMC Protocol)은 Fixed-1cm은 0.25cm 이상, Fixed-2.5cm는 0.75cm 이상, Dynamic-2.5cm는 1cm 이상, Fixed-5cm과 Dynamic-5cm인 경우는 1.75cm 이상의 Scan range가 있어야 정확한 치료계획을 할 수 있었다. 선량 전달의 정확성은 RIT로 분석한 결과 SMC Protocol을 만족한 치료계획에서 3% 미만의 오차였다. 결 론: 두경부 토모테라피 치료 시 CT scan range가 부족한 경우 Plan Setup Parameter 중 Field Width(FW)를 조절하여 정확한 치료계획을 설계할 수 있었다. 이에 본 저자가 추천한 Plan Setup Parameter를 CT scan range에 따라 적용하고 Re-CT 여부를 판단한다면 업무의 효율성 및 환자의 피폭선량을 감소시킬 수 있을 것으로 사료된다.

• 대한기계학회논문집A
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• 제24권3호
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• pp.676-684
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• 2000

In this study, behavior of $C_t$ which is a well-known fracture parameter characterizing creep crack growth rate, is investigated for weld interface cracks. Finite element analyses were per formed for a C(T) specimen under constant loading condition for elastic-plastic-creeping materials. In modeling C(T) geometry, an interface was employed along the crack plane which simulated the interface between weld and base metals. The $C_t$ versus time relations were obtained under various creep constant combinations and plastic constant combinations for weld and base metals, respectively. A unified $C_t$ versus time curve is obtained by normalizing $C_t$ with $C^*$ and t with $t_T$ for all the cases of material constant variations.

• 핵의학기술
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• 제17권2호
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• pp.15-24
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• 2013

SPECT/CT의 수요가 늘면서 CT에 따른 복합적 진단정보에 대한 관심이 대두되고 있으며, 그 잠재적 성능가치에 대한 연구가 다양하게 진행 중이다. 하지만 그에 따른 CT 피폭 저감에 대한 연구는 미비한 실정이다. 그러므로 본 연구에서는 상 하지(extremity) 뼈 SPECT/CT 검사 시 평판형(flat-panel) CT에서의 피폭저감 영향에 대해 고찰하는데 목적을 두었다. 상 하지 뼈 SPECT/CT 검사 시 평판형과 나선형(helical) CT 간의 선량 조건에 따른 영상의 질, 피폭선량 비교를 위해 BrightView XCT (Philips Healthcare, Cleveland, USA)와 Briliance 16 CT (Philips, Healthcare, Cleveland, USA)를 적용하였다. AAPM CT phantom을 대상으로 노이즈(noise), 공간 분해능(spatial resolution)을 평가하였으며, 촬영 조건은 관전압 120 kVp로 고정하고, 관전류량(mAs)는 평판형 CT의 상 하지용 촬영 조건인 20, 30, 40, 50, 60, 70, 80 mA를 기준으로 산출된 mAs를 두 장비에 동일 적용하였다. 각 조건별 동일 촬영거리 내에서 DLP (dose-length product)값을 산출하였다. 또한 CT의 조건변화에 따라 SPECT 영상에 미치는 영향을 확인하기 위해 NEMA IEC body phantom으로 영상을 획득하고 %contrast를 확인하였다. 산출된 정보는 SPSS ver.18로 기술통계 분석 하였다. AAPM phantom에서는 mAs의 증가에 따라 노이즈는 감소하였고, 평판형 CT가 나선형 CT보다 노이즈가 낮았으며, 그 차이는 저선량의 조건일수록 증가하였다. 분해능 평가에서 두 장비 모두 0.75 mm까지 육안으로 식별 가능하였고, 평판형 CT의 경우 선량조건(mA)의 증가에 따라 DLP값이 54-216 mGy cm까지 증가하였으며, 나선형 CT의 경우 177-709 mGy cm로 증가하였다. NEMA IEC body phantom에서는 CT 촬영 조건 변화에 따른 동일한 크기의 구(sphere)에서 측정한 결과 %contrast는 일정한 값을 유지하였다. 동일한 조건을 적용한 평판형과 나선형 CT 간의 선량 조건 변화에 따른 영상의 질은 큰 차이를 보이지 않았으며, 충분한 피폭저감의 효과를 얻을 수 있었다. 또한 SPECT 영상의 %contrast 분석을 통해 영상의 질이 유지되는 것을 확인하였다. 그러므로 촬영범위가 넓지 않고 고분해능을 요구하는 상 하지 뼈 SPECT/CT 검사에서 평판형 CT를 적용하는 것이, 나선형 CT에 비해 낮은 선량조건을 적용함에도 불구하고 유사한 영상의 질을 기대할 수 있다. 또한 이를 통해 실제 임상에서 불필요한 피폭선량 저감에 도움이 되리라 사료된다.

• 대한기계학회논문집A
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• 제28권7호
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• pp.1021-1028
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• 2004

Kim et al. suggested an experimental method to determine the Q parameter in situ from the out-of-plane displacement and the in-plane strains on the surface of side necking near the crack tip. In this paper, the procedure to evaluate the stress triaxiality near a crack tip such as the Q parameter is to be polished in the details for simplicity and accuracy. That is, Q and hydrostatic stress are determined only from the out-of-plane displacement, but not using in-plane strain, which is hard to measure. And also, the plastic modulus is determined by an alternative way. Through three-dimensional finite element analyses for a standard CT specimen with 20% side-grooves, the validities of the new procedures are examined in comparison to the old ones. The effect of location where the displacements are measured to determine the stress triaxiality is explored.

• Journal of Audiology & Otology
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• 제24권1호
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• pp.17-23
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• 2020

Background and Objectives: We aimed to measure the head dimensions on computed tomography (CT) images, to compare them to directly measured head dimensions, and to predict a new parameter of bone thickness for aiding bone conduction implant (BCI) placement. Subjects and Methods: We reviewed the facial and mandibular bone CT images of 406 patients. Their head sizes were analyzed using five parameters included in the 6th Size Korea project, and they were divided into age groups (ranging from the 10s to the 80s). We compared the head length, head width, sagittal arc, bitragion arc, and head circumference in the CT and Size Korea groups. We also added the parameter bone thickness for aiding BCI placement. Results: All the head size parameters measured using CT were significantly smaller than those measured directly, with head length showing the smallest difference at 7.85 mm. The differences in the other four parameters between the two groups according to patient age were not statistically significantly different. Bone thickness had the highest value of 4.89±0.93 mm in the 70s and the lowest value of 4.10±0.99 mm in the 10s. Bone thickness also significantly correlated with head width (p=0.038). Conclusions: Our findings suggested that the CT and direct measurements yielded consistent data. Moreover, CT enabled the measurement of bone sizes, including bone thickness, that are impossible to measure directly. CT measurements may complement direct measurements in the Size Korea data when used for developing bone conduction hearing devices (BCIs and headsets) for the Korean population.

• 대한청각학회지
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• 제24권1호
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• pp.17-23
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• 2020

Background and Objectives: We aimed to measure the head dimensions on computed tomography (CT) images, to compare them to directly measured head dimensions, and to predict a new parameter of bone thickness for aiding bone conduction implant (BCI) placement. Subjects and Methods: We reviewed the facial and mandibular bone CT images of 406 patients. Their head sizes were analyzed using five parameters included in the 6th Size Korea project, and they were divided into age groups (ranging from the 10s to the 80s). We compared the head length, head width, sagittal arc, bitragion arc, and head circumference in the CT and Size Korea groups. We also added the parameter bone thickness for aiding BCI placement. Results: All the head size parameters measured using CT were significantly smaller than those measured directly, with head length showing the smallest difference at 7.85 mm. The differences in the other four parameters between the two groups according to patient age were not statistically significantly different. Bone thickness had the highest value of 4.89±0.93 mm in the 70s and the lowest value of 4.10±0.99 mm in the 10s. Bone thickness also significantly correlated with head width (p=0.038). Conclusions: Our findings suggested that the CT and direct measurements yielded consistent data. Moreover, CT enabled the measurement of bone sizes, including bone thickness, that are impossible to measure directly. CT measurements may complement direct measurements in the Size Korea data when used for developing bone conduction hearing devices (BCIs and headsets) for the Korean population.

• International Journal of Precision Engineering and Manufacturing
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• 제3권2호
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• pp.95-101
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• 2002

The propagation rate(da/dt) prediction parameter and the microstructure properties of creep crack in domestic 3.3NiCrMov steel were investigated at 550$\^{C}$ by using 0.5" CT specimen under constant load(4090N) and constant Ct(300∼4000N/mhr) condition that was maintained during crack growth of 1mm distance. C＊ usually increased with crack length though load was reduced in order to maintain constant Ct value as crack growth and considerably showed the scatter band, but Ct depended on load line displacement rate and represented a good relation with da/dt. At constant toad and Ct region, crack growth slope was 0.900 and 0.844 each, in the other hand C＊ slope was 0.480. Fully coalesced area(FCA) ahead of crack tip was increased as Ct value increase to the critical value, and after that value FCA decreased. The average diameter ditribution of cavity in FCA showed the greatest value about 1.5 ㎛ when Ct=2000N/mhr. The increasing of Ct in FCA view point enlarged the size of damage area and the size reached to maximum 800 ㎛ when Ct=2000N/mhr.

• 인터넷정보학회논문지
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• 제21권3호
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• pp.103-111
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• 2020

Liver cancer is the most fatal cancer that occurs worldwide. In order to diagnose liver cancer, the patient's physical condition was checked by using a CT technique using radiation. Segmentation was needed to diagnose the liver on the patient's abdominal CT scan, which the radiologists had to do manually, which caused tremendous time and human mistakes. In order to automate, researchers attempted segmentation using image segmentation algorithms in computer vision field, but it was still time-consuming because of the interactive based and the setting value. To reduce time and to get more accurate segmentation, researchers have begun to attempt to segment the liver in CT images using CNNs, which show significant performance in various computer vision fields. The pixel value, or numerical value, of the CT image is called the Hounsfield Unit (HU) value, which is a relative representation of the transmittance of radiation, and usually ranges from about -2000 to 2000. In general, deep learning researchers reduce or limit this range and use it for training to remove noise and focus on the target organ. Here, we observed that the range of HU values was limited in many studies but different in various liver segmentation studies, and assumed that performance could vary depending on the HU range. In this paper, we propose the possibility of considering HU value range as a hyper parameter. U-Net and ResUNet were used to compare and experiment with different HU range limit preprocessing of CHAOS dataset under limited conditions. As a result, it was confirmed that the results are different depending on the HU range. This proves that the range limiting the HU value itself can be a hyper parameter, which means that there are HU ranges that can provide optimal performance for various models.

• 대한방사선협회지
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• 제29권1호
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• pp.269-269
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• 2003

• Asian Pacific Journal of Cancer Prevention
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• 제16권9호
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• pp.3945-3949
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• 2015

Background: For brachytherapy of cervical cancer, applicator shifts can not be avoided. The present investigation concerned Utrecht interstitial applicator shifts and their effects on organ movement and DVH parameters during 3D CT-based HDR brachytherapy of cervical cancer. Materials and Methods: After the applicator being implanted, CT imaging was achieved for oncologist contouring CTVhr, CTVir, and OAR, including bladder, rectum, sigmoid colon and small intestines. After the treatment, CT imaging was repeated to determine applicator shifts and OARs movements. Two CT images were matched by pelvic structures. In both imaging results, we defined the tandem by the tip and the base as the marker point, and evaluated applicator shift, including X, Y and Z. Based on the repeated CT imaging, oncologist contoured the target volume and OARs again. We combined the treatment plan with the repeated CT imaging and evaluated the change range for the doses of CTVhr D90, D2cc of OARs. Results: The average applicator shift was -0.16 mm to 0.10 mm for X, 1.49 mm to 2.14 mm for Y, and 1.9 mm to 2.3 mm for Z. The change of average physical doses and EQD2 values in Gy${\alpha}/{\beta}$ range for CTVhr D90 decreased by 2.55 % and 3.5 %, bladder D2cc decreased by 5.94 % and 8.77 %, rectum D2cc decreased by 2.94 % and 4 %, sigmoid colon D2cc decreased by 3.38 % and 3.72 %, and small intestines D2cc increased by 3.72 % and 10.94 %. Conclusions: Applicator shifts and DVH parameter changes induced the total dose inaccurately and could not be ignored. The doses of target volume and OARs varied inevitably.