• Title/Summary/Keyword: CRW

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Clinical Analysis of Stereotactic Biopsy in Brain Lesions (정위적 뇌생검의 임상분석)

  • Kim, Young Wook;Kim, Jae Hyoo;Seo, Seung Kweon;Lee, Jung Kil;Kim, Tae Sun;Jung, Shin;Kim, Soo Han;Kang, Sam Suk;Lee, Je Hyuk
    • Journal of Korean Neurosurgical Society
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    • v.29 no.1
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    • pp.15-22
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    • 2000
  • Objective : This study was undertaken to evaluate the benefits and risks of the stereotactic biopsy in brain lesions. We assessed the diagnostic accuracy and morbidity rate associated with the stereotactic biopsy. Methods : The authors present a review of 47 patients, who underwent stereotactic biopsy using Cosman-Roberts-Wells(CRW) stereotactic apparatus during last six years. Results : Target locations were supratentorial in 36 cases, infratentorial in 9 and multiple in 2. According to pathological diagnosis, the largest group was neoplasm(29) followed by infection(9), infarction(2), cyst(2), and non-specific(5). Definitive diagnosis could be made in 42 of 47 cases(89.4%). When the mass lesion had been suspected as neoplastic condition, the diagnostic rate was 96.7%(29/30). It was being much higher than that of non-neoplastic lesion, 76.5%(13/17). The treatment modality was changed in 15 cases(32%) because the result of stereotactic biopsy was different from clinical diagnosis. Subsequent craniotomy after stereotactic biopsy was then performed in 6 cases, and the pathological diagnoses were precisely coincident in all of these cases. There were two complications(4.3%) : One intratumoral hemorrhage in glioblastoma and a transient hemiparesis in benign astrocytoma. There was no mortality in this series. Conclusion : The precise histological verification is crucial to determine the adequate treatment modality in intracranial lesions. Stereotactic biopsy is a safe and accurate diagnostic procedure for intracranial lesions with a low complication rate.

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Analysis of the thermal-mechanical behavior of SFR fuel pins during fast unprotected transient overpower accidents using the GERMINAL fuel performance code

  • Vincent Dupont;Victor Blanc;Thierry Beck;Marc Lainet;Pierre Sciora
    • Nuclear Engineering and Technology
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    • v.56 no.3
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    • pp.973-979
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    • 2024
  • In the framework of the Generation IV research and development project, in which the French Commission of Alternative and Atomic Energies (CEA) is involved, a main objective for the design of Sodium-cooled Fast Reactor (SFR) is to meet the safety goals for severe accidents. Among the severe ones, the Unprotected Transient OverPower (UTOP) accidents can lead very quickly to a global melting of the core. UTOP accidents can be considered either as slow during a Control Rod Withdrawal (CRW) or as fast. The paper focuses on fast UTOP accidents, which occur in a few milliseconds, and three different scenarios are considered: rupture of the core support plate, uncontrolled passage of a gas bubble inside the core and core mechanical distortion such as a core flowering/compaction during an earthquake. Several levels and rates of reactivity insertions are also considered and the thermal-mechanical behavior of an ASTRID fuel pin from the ASTRID CFV core is simulated with the GERMINAL code. Two types of fuel pins are simulated, inner and outer core pins, and three different burn-up are considered. Moreover, the feedback from the CABRI programs on these type of transients is used in order to evaluate the failure mechanism in terms of kinetics of energy injection and fuel melting. The CABRI experiments complete the analysis made with GERMINAL calculations and have shown that three dominant mechanisms can be considered as responsible for pin failure or onset of pin degradation during ULOF/UTOP accident: molten cavity pressure loading, fuel-cladding mechanical interaction (FCMI) and fuel break-up. The study is one of the first step in fast UTOP accidents modelling with GERMINAL and it has shown that the code can already succeed in modelling these type of scenarios up to the sodium boiling point. The modeling of the radial propagation of the melting front, validated by comparison with CABRI tests, is already very efficient.

Determination of Stereotactic Target Position with MR Localizer (자기공명영상을 이용한 두개부내 표적의 3차원적 위치결정)

  • 최태진;김옥배;주양구;서수지;손은익
    • Progress in Medical Physics
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    • v.7 no.2
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    • pp.67-77
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    • 1996
  • Purpose: To get a 3-D coordinates of intracranial target position was investicated in axial, sagittal and coronal magnetic resonance imaging with a preliminary experimented target localizer. Material and methods : In preliminal experiments, the localizer is made of engineering plastic to avoid the distrubance of magnetic field during the MR image scan. The MR localizer displayed the 9 points in three different axial tomogram. The bright signal of localizer was obtjained from 0.1~0.3% of paramagnetic gadolinium/DTPA solution in T1WI or T2WI. In this study, the 3-D position of virtual targets were examined from three different axial MR images and the streotactic position was compared to that of BRW stereotactic system in CT scan with same targets. Results: This study provided the actual target position could be obtained from single scan with MRI localizer which has inverse N-typed 9 bars. This experiment was accomplished with shimming test for detection of image distortion in MR image. However we have not found the image distortion in axial scan. The maximum error of target positions showed 1.0 mm in axial, 1.3 mm for sagittal and 1.7 mm for coronal image, respectivelly. The target localization in MR localizer was investicated with spherical virtual target in skull cadaver. Furthermore, the target position was confirmed with CRW stereotactic system showed a 1.3 mm in discrepancy. Summary : The intracranial target position was determined within 1.7 mm of discrepancy with designed MR localizer. We found the target position from axial image has more small discrepancy than that of sagittal and coronal image.

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