2,395 results on '"Hiratsuka, J."'
Search Results
2. Applying patient characteristics, stent-graft selection, and pre-operative computed tomographic angiography data to a machine learning algorithm: Is endoleak prediction possible?
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Masuda, T., Baba, Y., Nakaura, T., Funama, Y., Sato, T., Masuda, S., Gotanda, R., Arao, K., Imaizumi, H., Arao, S., Ono, A., Hiratsuka, J., and Awai, K.
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- 2022
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3. Influence of contrast enhancement at the contrast injection location for the arm or leg in neonatal and infant patients during cardiac computed tomography
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Masuda, T., Funama, Y., Nakaura, T., Sato, T., Tahara, M., Yamashita, Y., Masuda, S., Yoshiura, T., Oku, T., Arao, S., Hiratsuka, J., and Awai, K.
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- 2022
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4. Influencia del realce de contraste al inyectar un medio de contraste en el brazo o la pierna en pacientes neonatos y lactantes durante la angiografía por cardiotomografía
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Masuda, T., Funama, Y., Nakaura, T., Sato, T., Tahara, M., Yamashita, Y., Masuda, S., Yoshiura, T., Oku, T., Arao, S., Hiratsuka, J., and Awai, K.
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- 2022
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5. Radiation dose reduction method combining the ECG-Edit function and high helical pitch in retrospectively-gated CT angiography
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Masuda, T., Funama, Y., Nakaura, T., Sato, T., Okimoto, T., Gotanda, R., Arao, K., Imaizumi, H., Arao, S., Ono, A., Hiratsuka, J., and Awai, K.
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- 2022
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6. Effect of injection duration on contrast enhancement during cardiac computed tomography angiography in newborns and infants
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Masuda, T., Funama, Y., Nakaura, T., Sato, T., Tahara, M., Masuda, S., Yoshiura, T., Gotanda, R., Arao, K., Imaizumi, H., Arao, S., Hiratsuka, J., and Awai, K.
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- 2022
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7. Enhancement rate of venous phase to portal venous phase computed tomography and its correlation with ultrasound elastography determination of liver fibrosis
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Masuda, T., Nakaura, T., Funama, Y., Sato, T., Arataki, K., Oku, T., Yoshiura, T., Masuda, S., Gotanda, R., Arao, K., Imaizumi, H., Arao, S., Hiratsuka, J., and Awai, K.
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- 2022
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8. Efficacy of the spiral flow generating extended tube during paediatric CCTA
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Masuda, T., Funama, Y., Nakaura, T., Sato, T., Tahara, M., Yamashita, Y., Yoshiura, T., Masuda, S., Gotanda, R., Arao, K., Imaizumi, H., Arao, S., Hiratsuka, J., and Awai, K.
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- 2022
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9. Deep learning with convolutional neural network for estimation of the characterisation of coronary plaques: Validation using IB-IVUS
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Masuda, T., Nakaura, T., Funama, Y., Oda, S., Okimoto, T., Sato, T., Noda, N., Yoshiura, T., Baba, Y., Arao, S., Hiratsuka, J., and Awai, K.
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- 2022
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10. Benchmark of beam acceleration codes on a high voltage negative ion accelerator for fusion with a new hypothesis on the beam meniscus
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Denizeau, S., Aprile, D., Agostinetti, P., Veronese, F., Patton, T., Pimazzoni, A., Hiratsuka, J., Ichikawa, M., Saquilayan, G.M., Kojima, A., Kashiwagi, M., and Chitarin, G.
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- 2021
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11. Beam Optics Study during Long-Pulse MeV-Class Beam Operation for the ITER HNB.
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Tanaka, Y, Kisaki, M, Suzuki, K, Hiratsuka, J, Murayama, M, Ichikawa, M, Tobari, H, and Kashiwagi, M
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- 2024
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12. Development of air-cooled plasma grid system for long-pulse negative ion beam acceleration with ITER-relevant perveance.
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Kisaki, M., Tanaka, Y., Suzuki, K., Hiratsuka, J., Murayama, M., Ichikawa, M., Tobari, H., and Kashiwagi, M.
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- 2024
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13. Improving a negative ion accelerator for next generation of neutral beam injectors: Results of QST-Consorzio RFX collaborative experiments
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Chitarin, G., Kojima, A., Aprile, D., Agostinetti, P., Barbisan, M., Denizeau, S., Ichikawa, M., Hiratsuka, J., Kashiwagi, M., Marconato, N., Pimazzoni, A., Sartori, E., Serianni, G., Veltri, P., and Yoshida, M.
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- 2019
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14. Prediction of endovascular leaks after thoracic endovascular aneurysm repair though machine learning applied to pre-procedural computed tomography angiographs.
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Masuda T, Baba Y, Nakaura T, Funama Y, Sato T, Masuda S, Gotanda R, Arao K, Imaizumi H, Arao S, Ono A, Hiratsuka J, and Awai K
- Abstract
To predict endoleaks after thoracic endovascular aneurysm repair (TEVAR) we submitted patient characteristics and vessel features observed on pre- operative computed tomography angiography (CTA) to machine-learning. We evaluated 1-year follow-up CT scans (arterial and delayed phases) in patients who underwent TEVAR for the presence or absence of an endoleak. We evaluated the effect of machine learning of the patient age, sex, weight, and height, plus 22 vascular features on the ability to predict post-TEVAR endoleaks. The extreme Gradient Boosting (XGBoost) for ML system was trained on 14 patients with- and 131 without endoleaks. We calculated their importance by applying XGBoost to machine learning and compared our findings between with those of conventional vessel measurement-based methods such as the 22 vascular features by using the Pearson correlation coefficients. Pearson correlation coefficient and 95% confidence interval (CI) were r = 0.86 and 0.75 to 0.92 for the machine learning, r = - 0.44 and - 0.56 to - 0.29 for the vascular angle, and r = - 0.19 and - 0.34 to - 0.02 for the diameter between the subclavian artery and the aneurysm (Fig. 3a-c, all: p < 0.05). With machine-learning, the univariate analysis was significant higher compared with the vascular angle and in the diameter between the subclavian artery and the aneurysm such as the conventional methods (p < 0.05). To predict the risk for post-TEVAR endoleaks, machine learning was superior to the conventional vessel measurement method when factors such as patient characteristics, and vascular features (vessel length, diameter, and angle) were evaluated on pre-TEVAR thoracic CTA images., (© 2024. Australasian College of Physical Scientists and Engineers in Medicine.)
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- 2024
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15. Using Patient-Specific Contrast Enhancement Optimizer Simulation Software During the Transcatheter Aortic Valve Implantation-Computed Tomography Angiography in Patients With Aortic Stenosis.
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Masuda T, Nakaura T, Higaki T, Funama Y, Matsumoto Y, Sato T, Okimoto T, Arao K, Imaizumi H, Arao S, Ono A, Hiratsuka J, and Awai K
- Abstract
Objectives: This study assessed whether patient-specific contrast enhancement optimizer simulation software (p-COP) can reduce the contrast material (CM) dose compared with the conventional body weight (BW)-tailored scan protocol during transcatheter aortic valve implantation-computed tomography angiography (TAVI-CTA) in patients with aortic stenosis., Methods: We used the CM injection protocol selected by the p-COP in group A (n = 30). p-COP uses an algorithm that concerns data on an individual patient's cardiac output. Group B (n = 30) was assigned to the conventional BW-tailored CM injection protocol group. We compared the CM dose, CM amount, injection rate, and computed tomography (CT) values in the abdominal aorta between the 2 groups and classified them as acceptable (>280 Hounsfield units (HU)) or unacceptable (<279 HU) based on the optimal CT value and visualization scores for TAVI-CTA. We used the Mann-Whitney U test to compare patient characteristics and assess the interpatient variability of subjects in both groups., Results: Group A received 56.2 mL CM and 2.6 mL/s of injection, whereas group B received 76.9 mL CM and 3.4 mL/s of injection (P < 0.01). The CT value for the abdominal aorta at the celiac level was 287.0 HU in group A and 301.7HU in group B (P = 0.46). The acceptable (>280 HU) and unacceptable (<280 HU) CT value rates were 22 and 8 patients in group A and 24 and 6 patients in group B, respectively (P = 0.76). We observed no significant differences in the visualization scores between groups A and B (visualization score = 3, P = 0.71)., Conclusion: The utilization of p-COP may decrease the CM dosage and injection rate by approximately 30% in individuals with aortic stenosis compared with the body-weight-tailored scan protocol during TAVI-CTA., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)
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- 2024
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16. Testing VBN theory in Japan: Relationships between values, beliefs, norms, and acceptability and expected effects of a car pricing policy
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Hiratsuka, J., Perlaviciute, G., and Steg, L.
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- 2018
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17. Realization of a Magnetically Compensated Extraction Grid for performance improvement of next generation NBI
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Aprile, Daniele, Agostinetti, P., Baltador, C., Hiratsuka, J., Ichikawa, M., Kashiwagi, M., Kojima, A., Marconato, N., Sartori, E., Serianni, G., Veltri, P., Yoshida, M., and Chitarin, G.
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- 2017
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18. Analysis on acceleration of DT-mixed ion beams in a negative ion accelerator for a DT-mixed Neutral Beam Injector
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Kojima, A., Kashiwagi, M., Matsuda, S., Hanada, M., Hayashi, T., Ichikawa, M., Hiratsuka, J., Nishikiori, R., Umeda, N., Tobari, H., and Watanabe, K.
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- 2017
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19. Fatal carotid blowout syndrome after BNCT for head and neck cancers
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Aihara, T., Hiratsuka, J., Ishikawa, H., Kumada, H., Ohnishi, K., Kamitani, N., Suzuki, M., Sakurai, H., and Harada, T.
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- 2015
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20. Strategy for Vacuum Insulation Tests of MITICA 1 MV Electrostatic Accelerator
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Chitarin, G., primary, Kojima, A., additional, Boldrin, M., additional, Luchetta, A., additional, Marcuzzi, D., additional, Zaccaria, P., additional, Zanotto, L., additional, Toigo, V., additional, Aprile, D., additional, Marconato, N., additional, Patton, T., additional, Pilan, N., additional, Barbato, P., additional, Berton, G., additional, Breda, M., additional, Dan, M., additional, Fincato, M., additional, Lotto, L., additional, Rigoni-Garola, A., additional, Sartori, E., additional, Tollin, M., additional, Valente, M., additional, Grando, L., additional, Pomaro, N., additional, De Lorenzi, A., additional, Hiratsuka, J., additional, Ichikawa, M., additional, Kisaki, M., additional, Murayama, M., additional, Saquilayan, G. M., additional, Tobari, H., additional, Umeda, N., additional, Watanabe, K., additional, and Kashiwagi, M., additional
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- 2022
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21. Corrigendum to “Deep learning with convolutional neural network for estimation of the characterisation of coronary plaques: Validation using IB-IVUS” [Radiography 28 (2022) 61–67]
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Masuda, T., primary, Nakaura, T., additional, Funama, Y., additional, Oda, S., additional, Okimoto, T., additional, Sato, T., additional, Noda, N., additional, Yoshiura, T., additional, Baba, Y., additional, Arao, S., additional, Hiratsuka, J., additional, and Awai, K., additional
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- 2022
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22. Study of beamlets extracted from a multi-aperture and five-stage acceleration system
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Kashiwagi, M., primary, Kisaki, M., additional, Saquilayan, G. Q., additional, Kojima, A., additional, Hiratsuka, J., additional, Ichikawa, M., additional, Shimabukuro, Y., additional, Murayama, M., additional, and Tobari, H., additional
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- 2022
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23. Application of Thomson scattering system toward direct measurement of extraction surface of the negative ion beam
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Hiratsuka, J, primary, Tomita, K, additional, Kashiwagi, M, additional, Kojima, A, additional, Saquilayan, G Q, additional, Kaihori, T, additional, Ichikawa, M, additional, Kisaki, M, additional, Tobari, H, additional, and Watanabe, K, additional
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- 2022
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24. Reverse trajectory analysis of the hydrogen negative ion beam in a prototype accelerator for ITER
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Kisaki, M, primary, Kojima, A, additional, Saquilayan, G Q, additional, Hiratsuka, J, additional, Ichikawa, M, additional, Shimabukuro, Y, additional, Murayama, M, additional, Watanabe, K, additional, Tobari, H, additional, and Kashiwagi, M, additional
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- 2022
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25. Suppression of damages on cathodes in the negative hydrogen ion source for the stable NBI system
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Shimabukuro, Y, primary, Hiratsuka, J, additional, Ichikawa, M, additional, Murayama, M, additional, Saquilayan, G, additional, Kisaki, M, additional, Kojima, A, additional, Tobari, H, additional, and Kashiwagi, M, additional
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- 2022
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26. High Power Density Beam Measurement of a Single Beamlet Multi-Grid Prototype H- Negative Ion Accelerator
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Saquilayan, G Q, primary, Kisaki, M, additional, Kojima, A, additional, Shimabukuro, Y, additional, Murayama, M, additional, Hiratsuka, J, additional, Ichikawa, M, additional, Watanabe, K, additional, Tobari, H, additional, and Kashiwagi, M, additional
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- 2022
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27. Usefulness of electrocardiogram mA modulation during the electrocardiogram-gated CT scan in paediatrics with high heart rate for different helical pitch: a phantom-based assessment study.
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Masuda T, Funama Y, Nakaura T, Sato T, Oku T, Gotanda R, Arao K, Imaizumi H, Arao S, Ono A, Hiratsuka J, and Awai K
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- Humans, Child, Coronary Angiography methods, Heart Rate, Radiation Dosage, Electrocardiography, Tomography, X-Ray Computed, Tomography, Spiral Computed methods, Pediatrics
- Abstract
We investigated the effect of electrocardiographic (ECG) mA-modulation of ECG-gated scans of computed tomography (CTA) on radiation dose and image noise at high heart rates (HR) above 100 bpm between helical pitches (HP) 0.16 and 0.24. ECG mA-modulation range during ECG-gated CTA is 50-100 mA, the phase setting is 40-60% and the scan range is 90 mm for clinical data during HR for 90, 120 and 150 bpm. Radiation dose and image noise in Housfield units are measured for CT equipment during HR for 90, 120 and 150 bpm between HP 0.16 and 0.24. ECG mA-modulation, dose reduction ratio for HR 90, 120 and 150 bpm are 19.1, 13.4 and 8.7% at HP 0.16 and 17.1, 13.3 and 7.7% at HP 0.24, respectively. No significant differences were observed in image noise between both HP. Dose reductions of 8-24% are achieved with ECG mA-modulation during ECG-gated CCTA scan, which is beneficial even in high HR more than 100 bpm., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)
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- 2023
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28. Can Machine Learning Identify the Intravenous Contrast Dose and Injection Rate Needed for Optimal Enhancement on Dynamic Liver Computed Tomography?
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Masuda T, Nakaura T, Funama Y, Sato T, Nagayama Y, Kidoh M, Yoshida M, Arao S, Ono A, Hiratsuka J, Hirai T, and Awai K
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- Humans, Prospective Studies, Liver diagnostic imaging, Body Weight, Aorta, Abdominal, Contrast Media, Tomography, X-Ray Computed methods
- Abstract
Objectives: This study aimed to investigate whether machine learning (ML) is useful for predicting the contrast material (CM) dose required to obtain a clinically optimal contrast enhancement in hepatic dynamic computed tomography (CT)., Methods: We trained and evaluated ensemble ML regressors to predict the CM doses needed for optimal enhancement in hepatic dynamic CT using 236 patients for a training data set and 94 patients for a test data set. After the ML training, we randomly divided using the ML-based (n = 100) and the body weight (BW)-based protocols (n = 100) by the prospective trial. The BW protocol was performed using routine protocol (600 mg/kg of iodine) by the prospective trial. The CT numbers of the abdominal aorta and hepatic parenchyma, CM dose, and injection rate were compared between each protocol using the paired t test. Equivalence tests were performed with equivalent margins of 100 and 20 Hounsfield units for the aorta and liver, respectively., Results: The CM dose and injection rate for the ML and BW protocols were 112.3 mL and 3.7 mL/s, and 118.0 mL and 3.9 mL/s ( P < 0.05). There were no significant differences in the CT numbers of the abdominal aorta and hepatic parenchyma between the 2 protocols ( P = 0.20 and 0.45). The 95% confidence interval for the difference in the CT number of the abdominal aorta and hepatic parenchyma between 2 protocols was within the range of predetermined equivalence margins., Conclusions: Machine learning is useful for predicting the CM dose and injection rate required to obtain the optimal clinical contrast enhancement for hepatic dynamic CT without reducing the CT number of the abdominal aorta and hepatic parenchyma., Competing Interests: The authors declare no conflict of interest., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)
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- 2023
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29. Hippocampal Sparing Radiotherapy in adults with Primary Brain Tumors: A comparative planning and dosimetric study using IMPT, IMRT and 3DCRT
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Aka, P, Taylor, R, Hugtenburg, R, Lambert, J, Powell, J, Bevolo, T, Gao, M, Gondi, V, Hartsell, W.H, Bolsi, A, Beer, J, Belosi, M.F, Siewert, D, Lomax, A.J, Weber, D.C, Huang, Y.J, Huang, C.C, Chao, P.J, Liu, C, Shang, H, Ding, X, Wang, Y, Mammar, H, Froelich, Sébastien, Alapetite, Claire, Bolle, Stéphanie, Calugaru, Valentin, Feuvret, Loic, Helfre, Sylvie, Champion, Laurence, Goudjil, Farid, Dendal, Remi, Engelholm, S.A, Munck Af Rosenschold, P, Kristensen, I, Smulders, B, Muhic, A, Alkner, S, Jacob, E, Engelholm, S, Aljabab, S, Lui, A, Wong, T, Liao, J, Laramore, G, Parvathaneni, U, Kharouta, M, Pidikiti, R, Jesseph, F, Smith, M, Dobbins, D, Mattson, D, Choi, S, Mansur, D, Machtay, M, Bhatt, A, Lütgendorf-Caucig, C, Dunavölgyi, R, Georg, P, Perpar, A, Fussl, C, Konstantinovic, R, Ulrike, M, Piero, F, Eugen, H, Vidal, M, Gerard, A, Barnel, C, Maneval, D, Herault, J, Claren, A, Doyen, J, Dendale, R, Toutee, A, Pasquie, I, Goudjil, F, Lumbroso Lerouic, L, Levy, C, Desjardins, L, Cassoux, N, Elisei, G, Pella, A, Calvi, G, Ricotti, R, Tagaste, B, Valvo, F, Ciocca, M, Via, R, Mastella, E, Baroni, G, Saotome, N, Yonai, S, Makishima, H, Hara, Y, Inaniwa, T, Sakama, M, Kanematsu, N, Tsuji, H, Furukawa, T, Shirai, T, Sauerwein, W, Finger, P.T, Gallie, B, Gavrylyuk, Y, Thariat, J, Salleron, J, Maschi, C, Fevrier, E, Caujolle, J.P, Hofverberg, P, Angellier, G, Peyrichon, M.L, Breneman, J, Esslinger, H, Pater, L, Vatner, R, Habrand, J.L, Stefan, D, Lesueur, P, Kao, W, Véla, A, Geffrelot, J, Tessonnier, T, Balosso, J, Mahé, M.A, Lim, P.S, Rompokos, V, Chang, Y.C, Royle, G, Gaze, M, Gains, J, Vennarini, S, Francesco, F, Rombi, B, Amichetti, M, Schwarz, M, Lorentini, S, Mee, T, Burnet, N.G, Crellin, A, Kirkby, N.F, Smith, E, Kirkby, K.J, Roggio, M, Buwenge, M, Melchionda, F, Ammendolia, I, Ronchi, L, Cammelli, S, Morganti, A.G, Youn, S.H, Kim, J.Y, Park, H.J, Shin, S.H, Lee, S.H, Hong, E.K, Czerska, K, Winczura, P, Wejs-Maternik, J, Blukis, A, Antonowicz-Szydlowska, M, Rucinski, A, Olko, P, Badzio, A, Kopec, R, Franceschini, D, Cozzi, L, De Rose, F, Meattini, I, Fogliata, A, Cozzi, S, Becherini, C, Tomatis, S, Livi, L, Scorsetti, M, Garda, A, Fattahi, S, Michel, A, Mutter, R, Yan, E, Park, S, Corbin, K, Giap, H, LAM, W.W, Geng, H, Tang, K.K, Lee, T.Y, Kong, C.W, Yang, B, Chiu, T.L, Cheung, K.Y, Yu, S.K, Ma, M, Gao, X, Zhao, Z, Zhao, B, Mullikin, T, Routman, D, Yu, J, Greco, K, Fagundes, M, Shan, J, Daniels, T, Rule, W, DeWees, T, Hu, Y, Bues, M, Sio, T, Liu, W, chenbin, L, yuehu, P, yuenan, W, Bai, Y, Gao, X.S, Zhao, Z.L, Ma, M.W, Ren, X.Y, Salem, A, Woolf, D, Aznar, M, Azadeh, A, Eccles, C, Charlwood, F, Faivre-Finn, C, Teoh, S, Fiorini, F, George, B, Vallis, K, Van den Heuvel, F, Huang, E.Y, Juang, P.J, Pan, S, Hawkins, M, Clarke, M, Lowe, M, Radhakrishna, G, Schaub, S, Bowen, S, Nyflot, M, Chapman, T, Apisarnthanarax, S, Vitek, P, Kubes, J, Vondracek, V, Vinakurau, S, Zamecnik, L, Vitolo, V, Barcellini, A, Brugnatelli, S, Cobianchi, L, Vanoli, A, Fossati, P, Facoetti, A, Dionigi, P, Orecchia, R, Iannalfi, A, Vischioni, B, Ronchi, S, D’Ippolito, E, Petrucci, R, Yamaguchi, H, Honda, M, Hamada, K, Todate, Y, Seto, I, Suzuki, M, Wada, H, Murakami, M, Yu, Z, Zheng, W, Lien-Chun, L, Zhengshan, H, Qing, Z, Jiade, L, Guoliang, J, Fiore, M.R, D'Ippolito, E, Fukumitsu, N, Hayakawa, T, Yamashita, T, Mima, M, Demizu, Y, Suzuki, T, Soejima, T, Hartsell, W, Collins, S, Casablanca, V, Mihalcik, S, Brennan, E, Van Nispen, A, Corbett, A, Mohammed, N, Lee, P, van Nispen, A, Liang, Y.S, Mein, S, Kopp, B, Choi, K, Haberer, T, Debus, J, Abdollahi, A, Mairani, A, Ogino, H, Iwata, H, Hashimoto, S, Nakajima, K, Hattori, Y, Nomura, K, Shibamoto, Y, Li, P, Wu, S, Deng, L, Zhang, G, Zhang, Q, Fu, S, Yang, Z, Zhang, Y, Sasaki, R, Okimoto, T, Akasaka, H, Miyawaki, D, Yoshida, K, Wang, T, Komatsu, S, Fukumoto, T, Shuang, W, Xin, C, zhengshan, H, Shen, F, Vorobyov, N, Andreev, G, Martynova, N, Lyubinsky, A, Kubasov, A, Chen, J, Ma, N, Lu, Y, Zhao, J, 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- Subjects
Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0642 ,Physics: Absolute and Relative DosimetryPTC58-0180 ,Biology: Biology and Clinical InterfacePTC58-0685 ,Physics: Commissioning New FacilitiesPTC58-0385 ,Physics: 4D Treatment and DeliveryPTC58-0546 ,Clinics: EyePTC58-0714 ,Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0528 ,Physics: Quality Assurance and VerificationPTC58-0507 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0661 ,Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0221 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0531 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0653 ,Biology: Drug and Immunotherapy CombinationsPTC58-0163 ,Clinics: Sarcoma - LymphomaPTC58-0055 ,Biology: Drug and Immunotherapy CombinationsPTC58-0166 ,Clinics: CNS / Skull BasePTC58-0198 ,Physics: Treatment PlanningPTC58-0421 ,Clinics: PediatricsPTC58-0560 ,General: New HorizonsPTC58-0709 ,Physics: Treatment PlanningPTC58-0664 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0286 ,Physics: Treatment PlanningPTC58-0666 ,Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0346 ,Physics: Treatment PlanningPTC58-0547 ,Physics: Treatment PlanningPTC58-0308 ,Physics: Treatment PlanningPTC58-0549 ,Physics: Beam Delivery and Nozzle Design Poster Discussion SessionsPTC58-0111 ,Physics: Absolute and Relative DosimetryPTC58-0050 ,Biology: Enhanced Biology in Treatment Planning Poster Discussion SessionsPTC58-0587 ,Biology: Biology and Clinical InterfacePTC58-0454 ,Physics: Absolute and Relative DosimetryPTC58-0052 ,Physics: Commissioning New FacilitiesPTC58-0395 ,Physics: 4D Treatment and DeliveryPTC58-0534 ,Physics: Dose Calculation and OptimisationPTC58-0072 ,Physics: 4D Treatment and DeliveryPTC58-0533 ,Physics: 4D Treatment and DeliveryPTC58-0538 ,Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0113 ,Physics: Quality Assurance and VerificationPTC58-0633 ,Physics: Treatment PlanningPTC58-0431 ,Physics: Beam Delivery and Nozzle DesignPTC58-0230 ,Biology: Mathematical Modelling SimulationPTC58-0179 ,Clinics: Head and Neck / EyePTC58-0365 ,Physics: Treatment PlanningPTC58-0319 ,Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0697 ,Biology: Biology and Clinical InterfacePTC58-0663 ,Physics: Commissioning New FacilitiesPTC58-0240 ,Physics: Adaptive TherapyPTC58-0177 ,Physics: Commissioning New FacilitiesPTC58-0363 ,Physics: Commissioning New FacilitiesPTC58-0487 ,Physics: 4D Treatment and DeliveryPTC58-0209 ,Physics: 4D Treatment and DeliveryPTC58-0206 ,Clinics: CNS / Skull BasePTC58-0294 ,Physics: Commissioning New FacilitiesPTC58-0127 ,Biology: Mathematical Modelling SimulationPTC58-0068 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0062 ,Physics: 4D Treatment and DeliveryPTC58-0692 ,Physics: Quality Assurance and VerificationPTC58-0723 ,Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0494 ,Physics: Treatment PlanningPTC58-0643 ,Physics: Treatment PlanningPTC58-0521 ,Physics: Treatment PlanningPTC58-0402 ,Physics: Treatment PlanningPTC58-0405 ,Clinics: Head and Neck / EyePTC58-0273 ,Clinics: GIPTC58-0397 ,Physics: Treatment PlanningPTC58-0648 ,Biology: Enhanced Biology in Treatment Planning Poster Discussion SessionsPTC58-0489 ,Physics: Quality Assurance and VerificationPTC58-0617 ,Physics: Quality Assurance and VerificationPTC58-0616 ,Physics: Dose Calculation and Optimisation Poster Discussion SessionsPTC58-0668 ,Clinics: CNS / Skull BasePTC58-0188 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0625 ,Physics: Treatment PlanningPTC58-0654 ,Physics: Treatment PlanningPTC58-0655 ,Biology: Drug and Immunotherapy Combinations Poster Discussion SessionsPTC58-0133 ,Clinics: PediatricsPTC58-0313 ,Physics: Treatment PlanningPTC58-0659 ,Poster AbstractsClinics: CNSPTC58-0290 ,Physics: Commissioning New FacilitiesPTC58-0064 ,Physics: Adaptive TherapyPTC58-0396 ,Physics: Dose Calculation and OptimisationPTC58-0281 ,Physics: Quality Assurance and VerificationPTC58-0427 ,Physics: Quality Assurance and VerificationPTC58-0669 ,General: New Horizons SessionPTC58-0191 ,Physics: Dose Calculation and Optimisation Poster Discussion SessionsPTC58-0217 ,Physics: Quality Assurance and VerificationPTC58-0303 ,Physics: Quality Assurance and VerificationPTC58-0665 ,Clinics: Sarcoma - LymphomaPTC58-0495 ,Physics: Dose Calculation and OptimisationPTC58-0398 ,Physics: Quality Assurance and VerificationPTC58-0667 ,Physics: Quality Assurance and VerificationPTC58-0425 ,Physics: Quality Assurance and VerificationPTC58-0541 ,Physics: Treatment PlanningPTC58-0584 ,Physics: Quality Assurance and VerificationPTC58-0540 ,Biology: Drug and Immunotherapy Combinations Poster Discussion SessionsPTC58-0163 ,Physics: Treatment PlanningPTC58-0224 ,Physics: Treatment PlanningPTC58-0229 ,Clinics: PediatricsPTC58-0249 ,Physics: Beam Delivery and Nozzle Design Poster Discussion SessionsPTC58-0555 ,Clinics: PediatricPTC58-0463 ,Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0556 ,Physics: Absolute and Relative DosimetryPTC58-0498 ,Physics: Commissioning New FacilitiesPTC58-0078 ,Physics: Dose Calculation and OptimisationPTC58-0270 ,Physics: Dose Calculation and OptimisationPTC58-0032 ,Physics: Dose Calculation and OptimisationPTC58-0274 ,Physics: 4D Treatment and DeliveryPTC58-0614 ,Physics: Dose Calculation and OptimisationPTC58-0026 ,Clinics: Head and Neck / EyePTC58-0280 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0091 ,Physics: Treatment PlanningPTC58-0593 ,Biology: Drug and Immunotherapy CombinationsPTC58-0012 ,Physics: Dose Calculation and OptimisationPTC58-0025 ,Physics: Dose Calculation and OptimisationPTC58-0146 ,Clinics: Sarcoma - LymphomaPTC58-0261 ,Physics: Treatment PlanningPTC58-0110 ,Clinics: Lung / Sarcoma / LymphomaPTC58-0733 ,Physics: Quality Assurance and VerificationPTC58-0554 ,Physics: Treatment PlanningPTC58-0597 ,Physics: Dose Calculation and Optimisation Poster Discussion SessionsPTC58-0330 ,Physics: Treatment PlanningPTC58-0115 ,Physics: Treatment PlanningPTC58-0598 ,Physics: Absolute and Relative DosimetryPTC58-0040 ,Physics: Absolute and Relative DosimetryPTC58-0282 ,Biology: Enhanced Biology in Treatment Planning Poster Discussion SessionsPTC58-0399 ,Physics: Absolute and Relative DosimetryPTC58-0283 ,Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0569 ,Clinics: GUPTC58-0647 ,Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0506 ,Physics: Commissioning New FacilitiesPTC58-0047 ,Physics: Dose Calculation and OptimisationPTC58-0067 ,Clinics: GUPTC58-0409 ,Physics: Dose Calculation and OptimisationPTC58-0065 ,Biology: BNCT Poster Discussion SessionsPTC58-0586 ,Physics: Absolute and Relative Dosimetry PTC58-0393 ,Physics: Image GuidancePTC58-0712 ,Physics: Quality Assurance and VerificationPTC58-0645 ,Physics: Treatment PlanningPTC58-0683 ,Biology: BNCT Poster Discussion SessionsPTC58-0107 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0266 ,Physics: Monitoring and Modelling MotionPTC58-0530 ,Biology: BNCT Poster Discussion SessionsPTC58-0341 ,Physics: Commissioning New FacilitiesPTC58-0172 ,Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0456 ,Physics: Dose Calculation and OptimisationPTC58-0170 ,Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0458 ,Physics: Absolute and Relative DosimetryPTC58-0034 ,Physics: Quality Assurance and VerificationPTC58-0417 ,Physics: Quality Assurance and VerificationPTC58-0413 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0492 ,Physics: Dose Calculation and OptimisationPTC58-0168 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0724 ,Physics: Treatment PlanningPTC58-0694 ,Physics: Adaptive TherapyPTC58-0005 ,Physics: Treatment PlanningPTC58-0696 ,Physics: Treatment PlanningPTC58-0453 ,Physics: Adaptive TherapyPTC58-0366 ,Clinics: BreastPTC58-0197 ,Physics: Beam Delivery and Nozzle DesignPTC58-0652 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0017 ,Physics: Treatment PlanningPTC58-0338 ,Clinics: Head and Neck / EyePTC58-0539 ,General: New Horizons SessionPTC58-0390 ,Physics: Image Guidance Poster Discussion SessionsPTC58-0651 ,General: New HorizonsPTC58-0660 ,Physics: Dose Calculation and OptimisationPTC58-0360 ,Physics: Image GuidancePTC58-0297 ,Physics: 4D Treatment and DeliveryPTC58-0147 ,Scientific: RTTPTC58-0388 ,Physics: Dose Calculation and OptimisationPTC58-0484 ,General: New HorizonsPTC58-0301 ,Physics: Dose Calculation and OptimisationPTC58-0485 ,General: New HorizonsPTC58-0304 ,Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0532 ,Clinics: GIPTC58-0575 ,General: New HorizonsPTC58-0306 ,Physics: Quality Assurance and VerificationPTC58-0589 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0344 ,Physics: Quality Assurance and VerificationPTC58-0225 ,Physics: Treatment PlanningPTC58-0381 ,Physics: Quality Assurance and VerificationPTC58-0467 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0585 ,Physics: Commissioning New FacilitiesPTC58-0416 ,Physics: Quality Assurance and VerificationPTC58-0228 ,Physics: Quality Assurance and VerificationPTC58-0348 ,Physics: Dose Calculation and OptimisationPTC58-0234 ,Physics: Quality Assurance and VerificationPTC58-0101 ,Physics: Treatment PlanningPTC58-0386 ,Physics: Dose Calculation and OptimisationPTC58-0118 ,Physics: Treatment PlanningPTC58-0265 ,Physics: Dose Calculation and OptimisationPTC58-0119 ,Clinics: GIPTC58-0218 ,Physics: Treatment PlanningPTC58-0267 ,Physics: Treatment PlanningPTC58-0387 ,Clinics: BreastPTC58-0142 ,Physics: Treatment PlanningPTC58-0269 ,Physics: Beam Delivery and Nozzle DesignPTC58-0620 ,Clinics: PediatricsPTC58-0048 ,Physics: Quality Assurance and VerificationPTC58-0220 ,Physics: Quality Assurance and VerificationPTC58-0461 ,Physics: Treatment PlanningPTC58-0029 ,Physics: Absolute and Relative DosimetryPTC58-0571 ,Physics: Image GuidancePTC58-0046 ,Clinics: GUPTC58-0557 ,Physics: Absolute and Relative DosimetryPTC58-0211 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0131 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0373 ,General: New HorizonsPTC58-0411 ,Physics: Dose Calculation and OptimisationPTC58-0595 ,Clinics: CNS / Skull BasePTC58-0361 ,General: New HorizonsPTC58-0414 ,General: New HorizonsPTC58-0537 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0628 ,Physics: Treatment PlanningPTC58-0271 ,Physics: Commissioning New FacilitiesPTC58-0307 ,Physics: Quality Assurance and VerificationPTC58-0359 ,Physics: Quality Assurance and VerificationPTC58-0354 ,General: New HorizonsPTC58-0419 ,Physics: Treatment PlanningPTC58-0035 ,Biology: BNCTPTC58-0474 ,Clinics: GIPTC58-0460 ,Biology: BNCTPTC58-0596 ,Clinics: GIPTC58-0222 ,Physics: Image GuidancePTC58-0193 ,Clinics: PediatricPTC58-0312 ,Clinics: GUPTC58-0441 ,Clinics: LungPTC58-0701 ,Clinics: EyePTC58-0536 ,Clinics: GUPTC58-0205 ,Physics: Dose Calculation and OptimisationPTC58-0140 ,Clinics: GUPTC58-0208 ,Physics: Dose Calculation and OptimisationPTC58-0020 ,Physics: Image GuidancePTC58-0195 ,Poster AbstractsClinics: CNSPTC58-0717 ,Physics: Quality Assurance and VerificationPTC58-0325 ,Physics: Dose Calculation and OptimisationPTC58-0015 ,Physics: Commissioning New FacilitiesPTC58-0634 ,General: New HorizonsPTC58-0646 ,Physics: Quality Assurance and VerificationPTC58-0566 ,Physics: Dose Calculation and OptimisationPTC58-0134 ,Physics: Dose Calculation and OptimisationPTC58-0376 ,Biology: Mathematical Modelling SimulationPTC58-0462 ,Biology: BNCTPTC58-0567 ,General: New HorizonsPTC58-0527 ,Physics: Treatment PlanningPTC58-0482 ,Clinics: GI, GU, BreastPTC58-0693 ,Physics: Commissioning New FacilitiesPTC58-0518 ,Physics: Quality Assurance and VerificationPTC58-0686 ,Physics: Quality Assurance and VerificationPTC58-0202 ,Physics: Quality Assurance and VerificationPTC58-0322 ,Physics: Quality Assurance and VerificationPTC58-0564 ,Physics: Quality Assurance and VerificationPTC58-0680 ,Physics: Treatment PlanningPTC58-0247 ,Physics: Quality Assurance and VerificationPTC58-0682 ,Physics: Quality Assurance and VerificationPTC58-0440 ,Biology: Translational and BiomarkersPTC58-0514 ,Physics: Beam Delivery and Nozzle Design Poster Discussion SessionsPTC58-0178 ,Clinics: EyePTC58-0520 ,Physics: Absolute and Relative DosimetryPTC58-0231 ,Clinics: Head and Neck / EyePTC58-0424 ,Physics: Absolute and Relative DosimetryPTC58-0471 ,Physics: Absolute and Relative DosimetryPTC58-0356 ,Physics: Dose Calculation and OptimisationPTC58-0491 ,Physics: Dose Calculation and OptimisationPTC58-0250 ,Physics: Commissioning New FacilitiesPTC58-0650 ,Biology: Biology and Clinical InterfacePTC58-0719 ,Physics: Absolute and Relative DosimetryPTC58-0232 ,Physics: Absolute and Relative DosimetryPTC58-0353 ,General: New HorizonsPTC58-0511 ,Physics: Quality Assurance and VerificationPTC58-0219 ,Physics: Absolute and Relative DosimetryPTC58-0238 ,General: New HorizonsPTC58-0512 ,Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0401 ,Clinics: PediatricPTC58-0688 ,Physics: Quality Assurance and VerificationPTC58-0457 ,Physics: Quality Assurance and VerificationPTC58-0214 ,Physics: Quality Assurance and VerificationPTC58-0459 ,General: New HorizonsPTC58-0516 ,Physics: Treatment PlanningPTC58-0372 ,Physics: Treatment PlanningPTC58-0011 ,Physics: Treatment PlanningPTC58-0254 ,Physics: Quality Assurance and VerificationPTC58-0332 ,Clinics: CNS / Skull BasePTC58-0468 ,Biology: Mathematical Modelling SimulationPTC58-0357 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0649 ,Physics: Dose Calculation and OptimisationPTC58-0006 ,Physics: Quality Assurance and VerificationPTC58-0212 ,Physics: Image Guidance Poster Discussion SessionsPTC58-0565 ,Physics: Treatment PlanningPTC58-0018 ,Physics: Treatment PlanningPTC58-0019 ,Clinics: BreastPTC58-0576 ,Clinics: Head and Neck / EyePTC58-0335 ,Clinics: Head and Neck / EyePTC58-0577 ,General: New HorizonsPTC58-0621 ,Physics: Absolute and Relative DosimetryPTC58-0426 ,Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0268 ,Physics: Absolute and Relative DosimetryPTC58-0423 ,Physics: Treatment PlanningPTC58-0184 ,Physics: Quality Assurance and VerificationPTC58-0149 ,Clinics: GIPTC58-0378 ,Clinics: GIPTC58-0257 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0662 ,General: New HorizonsPTC58-0627 ,Physics: Treatment PlanningPTC58-0186 ,Physics: Treatment PlanningPTC58-0185 ,Physics: Quality Assurance and VerificationPTC58-0144 ,Biology: BNCT Poster Discussion SessionsPTC58-0602 ,Physics: Treatment PlanningPTC58-0189 ,Physics: Dose Calculation and OptimisationPTC58-0315 ,Clinics: Head and neckPTC58-0300 ,General: New Horizons SessionPTC58-0347 ,Physics: Image GuidancePTC58-0082 ,Clinics: BreastPTC58-0443 ,Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0629 ,Physics: Adaptive Therapy Poster Discussion SessionsPTC58-0007 ,Physics: Commissioning New FacilitiesPTC58-0472 ,Clinics: GI, GU, BreastPTC58-0515 ,Physics: Dose Calculation and Optimisation Poster Discussion SessionsPTC58-0606 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0450 ,Physics: Absolute and Relative DosimetryPTC58-0657 ,Physics: Dose Calculation and OptimisationPTC58-0551 ,Physics: Treatment PlanningPTC58-0192 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0675 ,Physics: Treatment PlanningPTC58-0194 ,Physics: Dose Calculation and OptimisationPTC58-0544 ,Physics: Treatment PlanningPTC58-0199 ,Physics: Quality Assurance and VerificationPTC58-0037 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0207 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0434 ,Physics: Quality Assurance and VerificationPTC58-0036 ,Physics: Quality Assurance and VerificationPTC58-0278 ,Physics: Quality Assurance and VerificationPTC58-0394 ,Physics: Quality Assurance and VerificationPTC58-0151 ,Physics: Quality Assurance and VerificationPTC58-0154 ,Physics: Dose Calculation and OptimisationPTC58-0428 ,Clinics: BreastPTC58-0116 ,Biology: Enhanced Biology in Treatment Planning Poster Discussion SessionsPTC58-0435 ,Physics: Commissioning New FacilitiesPTC58-0681 ,Physics: Absolute and Relative DosimetryPTC58-0323 ,Physics: Dose Calculation and OptimisationPTC58-0583 ,Physics: Absolute and Relative DosimetryPTC58-0448 ,Clinics: CNS / Skull BasePTC58-0251 ,General: New HorizonsPTC58-0721 ,Physics: Absolute and Relative DosimetryPTC58-0203 ,Physics: Dose Calculation and OptimisationPTC58-0455 ,Physics: 4D Treatment and DeliveryPTC58-0130 ,Physics: Commissioning New FacilitiesPTC58-0679 ,Physics: Absolute and Relative DosimetryPTC58-0329 ,General: New HorizonsPTC58-0604 ,Physics: Absolute and Relative DosimetryPTC58-0449 ,Clinics: CNS / Skull BasePTC58-0132 ,General: New HorizonsPTC58-0607 ,Physics: Quality Assurance and VerificationPTC58-0122 ,Physics: Quality Assurance and VerificationPTC58-0243 ,Physics: Treatment PlanningPTC58-0165 ,Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0437 ,Physics: 4D Treatment and DeliveryPTC58-0377 ,Physics: Quality Assurance and VerificationPTC58-0125 ,Physics: Quality Assurance and VerificationPTC58-0245 ,Physics: Dose Calculation and OptimisationPTC58-0337 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0334 ,Physics: Quality Assurance and VerificationPTC58-0121 ,General: New Horizons SessionPTC58-0563 ,General: New Horizons SessionPTC58-0321 ,Clinics: Head and Neck / EyePTC58-0477 ,Physics: Quality Assurance and VerificationPTC58-0480 ,Clinics: GUPTC58-0010 ,Clinics: EyePTC58-0684 ,Clinics: GUPTC58-0496 ,Clinics: Head and neckPTC58-0676 ,Clinics: GUPTC58-0137 ,Physics: Beam Delivery and Nozzle Design Poster Discussion SessionsPTC58-0256 ,Physics: 4D Treatment and DeliveryPTC58-0117 ,Physics: Absolute and Relative DosimetryPTC58-0552 ,Physics: Absolute and Relative DosimetryPTC58-0310 ,Physics: Absolute and Relative DosimetryPTC58-0672 ,Physics: Absolute and Relative DosimetryPTC58-0436 ,Physics: Dose Calculation and OptimisationPTC58-0452 ,Physics: Dose Calculation and OptimisationPTC58-0331 ,Physics: Commissioning New FacilitiesPTC58-0213 ,Biology: Mathematical Modelling SimulationPTC58-0272 ,Clinics: EyePTC58-0326 ,Physics: Commissioning New FacilitiesPTC58-0568 ,Physics: Dose Calculation and OptimisationPTC58-0444 ,Physics: Quality Assurance and VerificationPTC58-0379 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0095 ,Physics: Treatment PlanningPTC58-0053 ,Physics: Absolute and Relative DosimetryPTC58-0438 ,Physics: Absolute and Relative DosimetryPTC58-0317 ,Physics: Quality Assurance and VerificationPTC58-0497 ,Physics: Quality Assurance and VerificationPTC58-0375 ,Physics: Treatment PlanningPTC58-0056 ,Physics: 4D Treatment and DeliveryPTC58-0124 ,Clinics: GIPTC58-0009 ,Physics: Quality Assurance and VerificationPTC58-0014 ,Physics: Quality Assurance and VerificationPTC58-0374 ,Clinics: LungPTC58-0727 ,General: New Horizons SessionPTC58-0578 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0470 ,Clinics: LungPTC58-0204 ,Clinics: Head and neckPTC58-0227 ,Clinics: LungPTC58-0446 ,Physics: Quality Assurance and VerificationPTC58-0190 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0609 ,Clinics: LungPTC58-0689 ,General: New HorizonsPTC58-0021 ,General: New HorizonsPTC58-0262 ,Biology: BNCT Poster Discussion SessionsPTC58-0081 ,Clinics: GIPTC58-0726 ,General: New HorizonsPTC58-0145 ,Physics: Image GuidancePTC58-0573 ,General: New HorizonsPTC58-0027 ,General: New HorizonsPTC58-0028 ,Biology: Mathematical Modelling and SimulationPTC58-0148 ,Physics: Dose Calculation and OptimisationPTC58-0635 ,Physics: Image GuidancePTC58-0215 ,Physics: Image GuidancePTC58-0336 ,Poster AbstractsClinics: CNSPTC58-0535 ,Physics: Quality Assurance and VerificationPTC58-0187 ,Biology: BNCT Poster Discussion SessionsPTC58-0084 ,General: New Investigator SessionPTC58-0339 ,General: New Horizons SessionPTC58-0420 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0523 ,Biology: BNCT Poster Discussion SessionsPTC58-0088 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0112 ,Physics: Quality Assurance and VerificationPTC58-0182 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0615 ,Physics: Quality Assurance and VerificationPTC58-0080 ,Biology: BNCTPTC58-0085 ,Physics: Adaptive Therapy Poster Discussion SessionsPTC58-0722 ,General: New HorizonsPTC58-0253 ,General: New HorizonsPTC58-0255 ,Clinics: PediatricPTC58-0703 ,General: New HorizonsPTC58-0499 ,Physics: Image Guidance Poster Discussion SessionsPTC58-0380 ,General: New HorizonsPTC58-0259 ,Clinics: GI, GU, BreastPTC58-0288 ,Clinics: GI, GU, BreastPTC58-0045 ,Physics: Absolute and Relative DosimetryPTC58-0619 ,Clinics: PediatricPTC58-0707 ,Physics: Quality Assurance and VerificationPTC58-0196 ,Physics: Quality Assurance and VerificationPTC58-0074 ,Physics: Quality Assurance and VerificationPTC58-0077 ,Biology: BNCT Poster Discussion SessionsPTC58-0073 ,Biology: BNCTPTC58-0075 ,Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0093 ,Clinics: GUPTC58-0161 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0371 ,Physics: Monitoring and Modelling MotionPTC58-0181 ,General: New HorizonsPTC58-0120 ,General: New HorizonsPTC58-0362 ,General: New HorizonsPTC58-0364 ,Physics: Image GuidancePTC58-0473 ,Scientific: RTTPTC58-0641 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0296 ,General: New HorizonsPTC58-0004 ,General: New HorizonsPTC58-0128 ,Clinics: BreastPTC58-0316 ,Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0236 ,General: New HorizonsPTC58-0008 ,General: New Investigator SessionPTC58-0673 ,Physics: Quality Assurance and VerificationPTC58-0167 ,Physics: Quality Assurance and VerificationPTC58-0289 ,Physics: Quality Assurance and VerificationPTC58-0284 ,General: New Horizons SessionPTC58-0522 ,Physics: Quality Assurance and VerificationPTC58-0164 ,Physics: Quality Assurance and VerificationPTC58-0285 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0623 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0502 ,Clinics: GUPTC58-0293 ,Biology: Translational and BiomarkersPTC58-0599 ,Biology: BNCTPTC58-0063 ,Clinics: LungPTC58-0656 ,General: New HorizonsPTC58-0592 ,Biology: BNCT Poster Discussion SessionsPTC58-0092 ,Poster AbstractsClinics: CNSPTC58-0302 ,Physics: Image GuidancePTC58-0464 ,General: New HorizonsPTC58-0352 ,Physics: Image GuidancePTC58-0465 ,General: New HorizonsPTC58-0476 ,Physics: Image GuidancePTC58-0100 ,General: New HorizonsPTC58-0235 ,Biology: Mathematical Modelling and SimulationPTC58-0349 ,Physics: Treatment PlanningPTC58-0094 ,Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0367 ,Physics: Dose Calculation and OptimisationPTC58-0400 ,Biology: Translational and BiomarkersPTC58-0244 ,Physics: Dose Calculation and OptimisationPTC58-0640 ,Biology: Mathematical Modelling and SimulationPTC58-0355 ,General: New Investigator SessionPTC58-0320 ,Physics: Quality Assurance and VerificationPTC58-0057 ,Physics: Quality Assurance and VerificationPTC58-0174 ,Physics: Quality Assurance and VerificationPTC58-0295 ,Physics: Dose Calculation and OptimisationPTC58-0529 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0123 ,Physics: Quality Assurance and VerificationPTC58-0171 ,Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0049 ,Clinics: BreastPTC58-0731 ,General: New HorizonsPTC58-0223 ,General: New HorizonsPTC58-0102 ,General: New HorizonsPTC58-0466 ,Scientific: RTTPTC58-0503 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0389 ,General: New HorizonsPTC58-0108 ,General: New HorizonsPTC58-0109 ,Physics: Commissioning New FacilitiesPTC58-0736 ,Biology: Mathematical Modelling and SimulationPTC58-0343 ,Biology: Mathematical Modelling and SimulationPTC58-0342 ,Clinics: GI, GU, BreastPTC58-0237 ,Physics: Dose Calculation and OptimisationPTC58-0711 ,Biology: Mathematical Modelling and SimulationPTC58-0581 ,Clinics: GI, GU, BreastPTC58-0114 ,Clinics: Base of SkullPTC58-0730 ,Clinics: Head and neckPTC58-0383 ,Clinics: CNS / Skull BasePTC58-0559 ,Clinics: Base of SkullPTC58-0613 ,General: New HorizonsPTC58-0691 ,Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0054 ,General: New HorizonsPTC58-0210 ,Clinics: BreastPTC58-0729 ,General: New HorizonsPTC58-0574 ,Clinics: GI, GU, BreastPTC58-0239 ,Scientific: RTTPTC58-0637 ,General: New HorizonsPTC58-0579 ,Clinics: Lung / Sarcoma / LymphomaPTC58-0176 ,General: New HorizonsPTC58-0699 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0156 ,Biology: Mathematical Modelling and SimulationPTC58-0333 ,Biology: Translational and BiomarkersPTC58-0345 ,Physics: Image GuidancePTC58-0369 ,Physics: Commissioning New FacilitiesPTC58-0509 ,Biology: Mathematical Modelling SimulationPTC58-0658 ,Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0051 ,General: New Investigator SessionPTC58-0548 ,Clinics: GI, GU, BreastPTC58-0241 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0412 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0024 ,Clinics: LungPTC58-0226 ,Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0069 ,General: New HorizonsPTC58-0562 ,General: New HorizonsPTC58-0561 ,General: New HorizonsPTC58-0201 ,Biology: Mathematical Modelling and SimulationPTC58-0439 ,General: New HorizonsPTC58-0445 ,General: New HorizonsPTC58-0324 ,Physics: Image GuidancePTC58-0031 ,Biology: Mathematical Modelling and SimulationPTC58-0558 ,Physics: Image GuidancePTC58-0392 ,Biology: Mathematical Modelling and SimulationPTC58-0678 ,Physics: Beam Delivery and Nozzle DesignPTC58-0090 ,General: New Investigator SessionPTC58-0630 ,Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0524 ,Physics: Commissioning New FacilitiesPTC58-0713 ,Clinics: GI, GU, BreastPTC58-0139 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0248 ,Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0368 ,Biology: Enhanced Biology in Treatment PlanningPTC58-0519 ,General: New Horizons SessionPTC58-0720 ,Physics: Quality Assurance and VerificationPTC58-0083 ,General: New HorizonsPTC58-0311 ,General: New HorizonsPTC58-0674 ,General: New HorizonsPTC58-0553 ,Physics: Image GuidancePTC58-0023 ,Scientific: RTTPTC58-0612 ,General: New HorizonsPTC58-0677 ,Biology: Mathematical Modelling and SimulationPTC58-0545 ,Physics: Dose Calculation and OptimisationPTC58-0601 ,Physics: Dose Calculation and OptimisationPTC58-0725 ,Physics: Quality Assurance and VerificationPTC58-0098 ,Physics: Dose Calculation and OptimisationPTC58-0605 ,Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0517 ,Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0618 ,Physics: Monitoring and Modelling MotionPTC58-0481 ,Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0071 ,Physics: Adaptive TherapyPTC58-0351 ,Physics: 4D Treatment and DeliveryPTC58-0702 ,Physics: Image GuidancePTC58-0734 ,Physics: Image GuidancePTC58-0611 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0486 ,Physics: Absolute and Relative Dosimetry Poster Discussion SessionsPTC58-0442 ,Biology: Drug and Immunotherapy CombinationsPTC58-0327 ,Clinics: Head and Neck / EyePTC58-0096 ,Clinics: LungPTC58-0159 ,Physics: Treatment PlanningPTC58-0708 ,General: New HorizonsPTC58-0097 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0350 ,Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0016 ,Physics: Adaptive TherapyPTC58-0104 ,Physics: Absolute and Relative Dosimetry Poster Discussion SessionsPTC58-0433 ,Physics: Image GuidancePTC58-0608 ,Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0610 ,Clinics: Head and neckPTC58-0058 ,Physics: Treatment PlanningPTC58-0715 ,Clinics: Head and neckPTC58-0298 ,Clinics: EyePTC58-0099 ,General: New HorizonsPTC58-0086 ,General: New HorizonsPTC58-0089 ,Clinics: Lung / Sarcoma / LymphomaPTC58-0200 ,Poster AbstractsClinics: CNSPTC58-0157 ,Clinics: LungPTC58-0141 ,Clinics: LungPTC58-0260 ,Clinics: LungPTC58-0264 ,Physics: Image GuidancePTC58-0513 ,Physics: Image GuidancePTC58-0631 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0469 ,Biology: BNCT Poster Discussion SessionsPTC58-0384 ,Physics: Image GuidancePTC58-0639 ,Clinics: PediatricsPTC58-0700 ,Clinics: LungPTC58-0136 ,Clinics: BreastPTC58-0706 ,General: New HorizonsPTC58-0079 ,Biology: Drug and Immunotherapy Combinations Poster Discussion SessionsPTC58-0406 ,Clinics: Base of SkullPTC58-0382 ,Physics: Image GuidancePTC58-0624 ,Physics: Beam Delivery and Nozzle DesignPTC58-0173 ,Biology: Drug and Immunotherapy CombinationsPTC58-0358 ,Poster AbstractsClinics: CNSPTC58-0690 ,General: New HorizonsPTC58-0061 ,Clinics: Lung / Sarcoma / LymphomaPTC58-0580 ,Physics: Monitoring and Modelling MotionPTC58-0162 ,Physics: Adaptive TherapyPTC58-0550 ,Physics: Adaptive TherapyPTC58-0430 ,Clinics: Lung / Sarcoma / LymphomaPTC58-0103 ,General: New Investigator SessionPTC58-0252 ,Physics: Quality Assurance and VerificationPTC58-0704 ,Physics: Image GuidancePTC58-0418 ,Clinics: Base of SkullPTC58-0572 ,Clinics: Lung / Sarcoma / LymphomaPTC58-0106 ,Physics: Beam Delivery and Nozzle DesignPTC58-0022 ,Physics: Monitoring and Modelling MotionPTC58-0279 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0447 ,Physics: Treatment PlanningPTC58-0622 ,Clinics: PediatricsPTC58-0644 ,Biology: Biology and Clinical InterfacePTC58-0490 ,Clinics: CNS / Skull BasePTC58-0716 ,General: New HorizonsPTC58-0292 ,Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0570 ,General: New HorizonsPTC58-0059 ,Physics: Quality Assurance and VerificationPTC58-0710 ,Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0216 ,Physics: Image GuidancePTC58-0404 ,Physics: Image GuidancePTC58-0525 ,Physics: Image GuidancePTC58-0526 ,Poster AbstractsClinics: CNSPTC58-0328 ,Clinics: LungPTC58-0070 ,Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0135 ,Biology: BNCT Poster Discussion SessionsPTC58-0391 ,Physics: Treatment PlanningPTC58-0510 ,Physics: Treatment PlanningPTC58-0636 ,Physics: Treatment PlanningPTC58-0638 ,Physics: Image GuidancePTC58-0408 ,Physics: Absolute and Relative Dosimetry Poster Discussion SessionsPTC58-0632 ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0318 ,Biology: Enhanced Biology in Treatment PlanningPTC58-0246 ,Clinics: PediatricsPTC58-0504 ,General: New HorizonsPTC58-0160 ,Physics: Image Guidance Poster Discussion SessionsPTC58-0076 ,Physics: Monitoring and Modelling MotionPTC58-0143 ,Biology: Mathematical Modelling and SimulationPTC58-0718 ,Physics: Image GuidancePTC58-0671 ,Clinics: LungPTC58-0183 ,Physics: Image GuidancePTC58-0670 ,Report ,Physics: Treatment Planning Poster Discussion SessionsPTC58-0422 ,Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0129 ,Physics: Adaptive Therapy Poster Discussion SessionsPTC58-0705 ,Biology: Enhanced Biology in Treatment PlanningPTC58-0258 ,General: New HorizonsPTC58-0030 ,General: New HorizonsPTC58-0150 ,Biology: Biology and Clinical InterfacePTC58-0479 ,General: New HorizonsPTC58-0153 ,Clinics: PediatricPTC58-0087 ,General: New HorizonsPTC58-0152 ,General: New HorizonsPTC58-0155 ,General: New HorizonsPTC58-0033 ,General: New HorizonsPTC58-0158 ,Physics: Image GuidancePTC58-0429 ,Biology: Translational and BiomarkersPTC58-0287 ,Physics: Adaptive TherapyPTC58-0403 ,Physics: Image GuidancePTC58-0309 - Published
- 2020
30. Achievement of DC 1 MV insulation in high-voltage power supply for ITER Neutral Beam Test Facility
- Author
-
Tobari H., Kashiwagi M., Watanabe K., Maejima T., Yamashita Y., Kojima A., Dairaku M., Sasaki S., Shibata N., Hiratsuka J., Konno S., Boldrin M., Zanotto L., Dal Bello S., Toigo V., Simon M., and Decamps H.
- Subjects
1 MV power supply system ,high-voltage insulation test ,ITER ,Neutral Beam Test Facility ,NBTF - Abstract
In the ITER neutral beam (NB) system, deuterium negative ion beam with 1 MeV, 40 A for 3600 s is required for plasma heating and current drive. The NB Test Facility (NBTF) is now being constructed in Padova, Italy, to achieve such high requirement prior to the ITER operation. Japan procures DC 1 MV power supply (PS) components for the NBTF and the ITER NB. Since this PS consists of various kinds of component with 100 m long, manufacturing and factory test have been performed over five years, and shipping and installation have been proceeded in parallel step by step as presented in the last FEC [A]. The on-site assembling technique for such complicated 1MV PS components is one of challenges not only for the ITER NB but also typical electrical components. As recent progress in the last two years, completion of assembly and also high-voltage insulation test of DC 1 MV power supply components are reported.
- Published
- 2021
31. Completion of Assembly and High-Voltage Insulation Test of DC 1 MV Power Supply System for the ITER Neutral Beam Test Facility
- Author
-
Tobari H., Kashiwagi M., Watanabe K., Maejima T., Yamashita Y., Kojima A., Dairaku M., Sasaki S., Shibata N., Hiratsuka J., Konno S., Boldrin M., Zanotto L., Dal Bello S., Toigo V., Simon M., and Decamps H.
- Subjects
1 MV power supply system ,high-voltage insulation test ,ITER ,Neutral Beam Test Facility ,NBTF - Abstract
In the ITER neutral beam (NB) system, deuterium negative ion beam with 1 MeV, 40 A for 3600 s is required for plasma heating and current drive. The NB Test Facility (NBTF) is now being constructed in Padova, Italy, to achieve such high requirement prior to the ITER operation. Japan procures DC 1 MV power supply (PS) components for the NBTF and the ITER NB. Since this PS consists of various kinds of component with 100 m long, manufacturing and factory test have been performed over five years, and shipping and installation have been proceeded in parallel step by step as presented in the last FEC [A]. The on-site assembling technique for such complicated 1MV PS components is one of challenges not only for the ITER NB but also typical electrical components. As recent progress in the last two years, completion of assembly and also high-voltage insulation test of DC 1 MV power supply components are reported.
- Published
- 2021
32. Boron Analytical Studies on 10B1-BPA Administration for Neutron Capture Therapy of Malignant Melanoma
- Author
-
Honda, C., Wadabayashi, N., Yoshino, K., Hiratsuka, J., Karashima, H., Kobayashi, T., Fukuda, H., Ichihashi, M., Mishima, Y., and Mishima, Yutaka, editor
- Published
- 1996
- Full Text
- View/download PDF
33. Biological evaluation of dopamine analogues containing phenylboronic acid group as new boron carriers
- Author
-
Ito, Y., Mizuno, T., Yoshino, K., Ban, H.S., Nakamura, H., Hiratsuka, J., Ishikawa, A., and Ohki, H.
- Published
- 2011
- Full Text
- View/download PDF
34. Completion of JT-60SA construction and contribution to ITER
- Author
-
Kamada Y., Di Pietro E., Hanada M., Barabaschi P., Ide S., Davis S., Yoshida M., Giruzzi G., Sozzi C., Abdel Maksoud W., Abe H., Aiba N., Akiyama T., Ayllon-Guerola J., Arai T., Artaud J. -F., Asakura N., Ashikawa N., Balbinot L., Bando T., Baulaigue O., Belonohy E., Bin W., Bombarda F., Bolzonella T., Bonne F., Bonotto M., Botija J., Cabrera-Perez S., Cardella A., Carraro L., Cavalier J., Chernyshova M., Chiba S., Clement-Lorenzo S., Cocilovo V., Coda S., Coelho R., Coffey I., Collin B., Corato V., Cucchiaro A., Czarski T., Dairaku M., Day C., de la Luna E., De Tommasi G., Decool P., Di Pace L., Dibon M., Disset G., Ejiri A., Endo Y., Ezumi N., Falchetto G., Fassina A., Fejoz P., Ferro A., Fietz W., Figini L., Fornal T., Frello G., Fujita T., Fukuda T., Fukui K., Fukumoto M., Furukawa M., Futatani S., Gabellieri L., Gaio E., Galazka K., Garcia J., Garcia-Dominguez J., Garcia-Lopez J., Garcia-Munoz M., Garzotti L., Gasparini F., Gharafi S., Giacomelli L., Ginoulhiac G., Giudicotti L., Guillen Gonzalez R., Hajnal N., Hall S., Hamada K., Hanada K., Hasegawa K., Hatae T., Hatakeyama S., Hauer V., Hayashi N., Hayashi T., Heller R., Higashijima S., Hinata J., Hiranai S., Hiratsuka J., Hiwatari R., Hoa C., Homma H., Honda A., Honda M., Horiike H., Hoshino K., Hurzlmeier H., Iafrati M., Ibano K., Ichige H., Ichikawa M., Ichimura M., Ida K., Idei H., Iijima T., Iio S., Ikeda R., Ikeda Y., Imai T., Imazawa R., Inagaki S., Inomoto M., Inoue S., Isayama A., Ishida S., Ishii Y., Isobe M., Janky F., Joffrin E., Jokinen A., Kado S., Kajita S., Kajiwara K., Kamata I., Kaminaga A., Kamiya K., Kanapienyte D., Kashiwa Y., Kashiwagi M., Katayama K., Kawamata Y., Kawamura G., Kawano K., Kawashima H., Kin F., Kitajima S., Kiyono K., Kizu K., Kobayashi K., Kobayashi M., Kobayashi S., Kobayashi T., Kocsis G., Koide Yo., Koide Yu., Kojima A., Kokusen S., Komuro K., Konishi S., Kovacsik A., Ksiazek I., Kubkowska M., Kuhner G., Kuramochi M., Kurihara K., Kurki-Suonio T., Kurniawan A. B., Kuwata T., Lacroix B., Lamaison V., Lampasi A., Lang P., Lauber P., Lawson K., Louzguiti A., Maekawa R., Maekawa T., Maeyama S., Maffia G., Maget P., Mailloux J., Maione I., Maistrello A., Malinowski K., Marchiori G., Marechal J. -L., Massaut V., Masuzaki S., Matsunaga G., Matsunaga S., Mayri Ch., Mattei M., Medrano M., Mele A., Meyer I., Michel F., Minami T., Miyata Y., Miyazawa J., Miyo Y., Mizuuchi T., Mogaki K., Morales J., Moreau P., Mori M., Morisaki T., Morishima S., Moriyama S., Moro A., Murakami H., Murayama M., Murakami S., Nagasaki K., Naito O., Nakamura S., Nakano T., Nakashima Y., Nardino V., Narita E., Narushima Y., Natsume K., Nemoto S., Neu R., Nicollet S., Nishikawa M., Nishimura S., Nishiura M., Nishiyama T., Nocente M., Nobuta Y., Novello L., Nunio F., Ochoa S., Ogawa T., Ogawa Y., Ohdachi S., Ohmori Y., Ohno N., Ohtani Y., Ohzeki M., Oishi T., Okano F., Okano J., Okano K., Onishi Y., Osakabe M., Oshima T., Ostuni V., Oya M., Oya Y., Oyama N., Ozeki T., Pasqualotto R., Pelli S., Peretti E., Phillips G., Piccinni C., Pigatto L., Pironti A., Pizzuto A., Plockl B., Polli G., Poncet J. -M., Ponsot P., Puiatti M., Radloff D., Raimondi V., Ramos F., Rancsik P., Ricci D., Ricciarini S., Rincon E., Romano A., Rossi P., Roussel P., Rubino G., Saeki H., Sagara A., Sakakibara S., Sakamoto H., Sakamoto M., Sakamoto Y., Sakasai A., Sakata S., Sakuma T., Sakurai S., Salanon B., Salmi A., Sannazzaro G., Sano R., Sanpei A., Sasajima T., Sasaki S., Sasao H., Sato F., Sato M., Sawahata M., Scherber A., Scully S., Seki M., Seki S., Shibama Y., Shibata Y., Shikama T., Shimada K., Shimono M., Shinde J., Shinya T., Shinohara K., Shirai H., Shiraishi J., Soare S., Soleto A., Someya Y., Streciwilk-Kowalska E., Strobel H., Sueoka M., Sukegawa A., Sulistyanintyas D., Sumida S., Sunaoshi H., Suzuki H., Suzuki M., Suzuki S., Suzuki T., Suzuki Y., Svoboda J., Szabolics T., Szepesi T., Takahashi K., Takase Y., Takechi M., Takeda K., Takeiri Y., Takenaga H., Taliercio C., Tamura N., Tanaka H., Tanaka K., Tani K., Tanigawa H., Tardocchi M., Terakado A., Terakado M., Terakado T., Teuchner B., Tilia B., Tobita K., Toi K., Toida N., Tojo H., Tokitani M., Tokuzawa T., Tormarchio V., Tomine M., Torre A., Totsuka T., Tsuchiya K., Tsujii N., Tsuru D., Tsutsui H., Uchida M., Ueda Y., Uno J., Urano H., Usui K., Utoh H., Valisa M., Vallar M., Vallcorba-Carbonell R., Vallet J. -C., Varela J., Vega J., Verrecchia M., Vieillard L., Villone F., Vincenzi P., Wada K., Wada R., Wakatsuki T., Wanner M., Watanabe F., Watanabe K., Wauters T., Wiesen S., Wischmeier M., Yagi M., Yagyu J., Yajima M., Yokooka S., Yokoyama M., Yamamoto S., Yamanaka H., Yamauchi K., Yamauchi Y., Yamazaki H., Yamazaki K., Yamazaki R., Yamoto S., Yanagi S., Yanagihara K., Yoshizawa N., Zani L., Zito P., Kamada, Y., Di Pietro, E., Hanada, M., Barabaschi, P., Ide, S., Davis, S., Yoshida, M., Giruzzi, G., Sozzi, C., Abdel Maksoud, W., Abe, H., Aiba, N., Akiyama, T., Ayllon-Guerola, J., Arai, T., Artaud, J. -F., Asakura, N., Ashikawa, N., Balbinot, L., Bando, T., Baulaigue, O., Belonohy, E., Bin, W., Bombarda, F., Bolzonella, T., Bonne, F., Bonotto, M., Botija, J., Cabrera-Perez, S., Cardella, A., Carraro, L., Cavalier, J., Chernyshova, M., Chiba, S., Clement-Lorenzo, S., Cocilovo, V., Coda, S., Coelho, R., Coffey, I., Collin, B., Corato, V., Cucchiaro, A., Czarski, T., Dairaku, M., Day, C., de la Luna, E., De Tommasi, G., Decool, P., Di Pace, L., Dibon, M., Disset, G., Ejiri, A., Endo, Y., Ezumi, N., Falchetto, G., Fassina, A., Fejoz, P., Ferro, A., Fietz, W., Figini, L., Fornal, T., Frello, G., Fujita, T., Fukuda, T., Fukui, K., Fukumoto, M., Furukawa, M., Futatani, S., Gabellieri, L., Gaio, E., Galazka, K., Garcia, J., Garcia-Dominguez, J., Garcia-Lopez, J., Garcia-Munoz, M., Garzotti, L., Gasparini, F., Gharafi, S., Giacomelli, L., Ginoulhiac, G., Giudicotti, L., Guillen Gonzalez, R., Hajnal, N., Hall, S., Hamada, K., Hanada, K., Hasegawa, K., Hatae, T., Hatakeyama, S., Hauer, V., Hayashi, N., Hayashi, T., Heller, R., Higashijima, S., Hinata, J., Hiranai, S., Hiratsuka, J., Hiwatari, R., Hoa, C., Homma, H., Honda, A., Honda, M., Horiike, H., Hoshino, K., Hurzlmeier, H., Iafrati, M., Ibano, K., Ichige, H., Ichikawa, M., Ichimura, M., Ida, K., Idei, H., Iijima, T., Iio, S., Ikeda, R., Ikeda, Y., Imai, T., Imazawa, R., Inagaki, S., Inomoto, M., Inoue, S., Isayama, A., Ishida, S., Ishii, Y., Isobe, M., Janky, F., Joffrin, E., Jokinen, A., Kado, S., Kajita, S., Kajiwara, K., Kamata, I., Kaminaga, A., Kamiya, K., Kanapienyte, D., Kashiwa, Y., Kashiwagi, M., Katayama, K., Kawamata, Y., Kawamura, G., Kawano, K., Kawashima, H., Kin, F., Kitajima, S., Kiyono, K., Kizu, K., Kobayashi, K., Kobayashi, M., Kobayashi, S., Kobayashi, T., Kocsis, G., Koide, Yo., Koide, Yu., Kojima, A., Kokusen, S., Komuro, K., Konishi, S., Kovacsik, A., Ksiazek, I., Kubkowska, M., Kuhner, G., Kuramochi, M., Kurihara, K., Kurki-Suonio, T., Kurniawan, A. B., Kuwata, T., Lacroix, B., Lamaison, V., Lampasi, A., Lang, P., Lauber, P., Lawson, K., Louzguiti, A., Maekawa, R., Maekawa, T., Maeyama, S., Maffia, G., Maget, P., Mailloux, J., Maione, I., Maistrello, A., Malinowski, K., Marchiori, G., Marechal, J. -L., Massaut, V., Masuzaki, S., Matsunaga, G., Matsunaga, S., Mayri, Ch., Mattei, M., Medrano, M., Mele, A., Meyer, I., Michel, F., Minami, T., Miyata, Y., Miyazawa, J., Miyo, Y., Mizuuchi, T., Mogaki, K., Morales, J., Moreau, P., Mori, M., Morisaki, T., Morishima, S., Moriyama, S., Moro, A., Murakami, H., Murayama, M., Murakami, S., Nagasaki, K., Naito, O., Nakamura, S., Nakano, T., Nakashima, Y., Nardino, V., Narita, E., Narushima, Y., Natsume, K., Nemoto, S., Neu, R., Nicollet, S., Nishikawa, M., Nishimura, S., Nishiura, M., Nishiyama, T., Nocente, M., Nobuta, Y., Novello, L., Nunio, F., Ochoa, S., Ogawa, T., Ogawa, Y., Ohdachi, S., Ohmori, Y., Ohno, N., Ohtani, Y., Ohzeki, M., Oishi, T., Okano, F., Okano, J., Okano, K., Onishi, Y., Osakabe, M., Oshima, T., Ostuni, V., Oya, M., Oya, Y., Oyama, N., Ozeki, T., Pasqualotto, R., Pelli, S., Peretti, E., Phillips, G., Piccinni, C., Pigatto, L., Pironti, A., Pizzuto, A., Plockl, B., Polli, G., Poncet, J. -M., Ponsot, P., Puiatti, M., Radloff, D., Raimondi, V., Ramos, F., Rancsik, P., Ricci, D., Ricciarini, S., Rincon, E., Romano, A., Rossi, P., Roussel, P., Rubino, G., Saeki, H., Sagara, A., Sakakibara, S., Sakamoto, H., Sakamoto, M., Sakamoto, Y., Sakasai, A., Sakata, S., Sakuma, T., Sakurai, S., Salanon, B., Salmi, A., Sannazzaro, G., Sano, R., Sanpei, A., Sasajima, T., Sasaki, S., Sasao, H., Sato, F., Sato, M., Sawahata, M., Scherber, A., Scully, S., Seki, M., Seki, S., Shibama, Y., Shibata, Y., Shikama, T., Shimada, K., Shimono, M., Shinde, J., Shinya, T., Shinohara, K., Shirai, H., Shiraishi, J., Soare, S., Soleto, A., Someya, Y., Streciwilk-Kowalska, E., Strobel, H., Sueoka, M., Sukegawa, A., Sulistyanintyas, D., Sumida, S., Sunaoshi, H., Suzuki, H., Suzuki, M., Suzuki, S., Suzuki, T., Suzuki, Y., Svoboda, J., Szabolics, T., Szepesi, T., Takahashi, K., Takase, Y., Takechi, M., Takeda, K., Takeiri, Y., Takenaga, H., Taliercio, C., Tamura, N., Tanaka, H., Tanaka, K., Tani, K., Tanigawa, H., Tardocchi, M., Terakado, A., Terakado, M., Terakado, T., Teuchner, B., Tilia, B., Tobita, K., Toi, K., Toida, N., Tojo, H., Tokitani, M., Tokuzawa, T., Tormarchio, V., Tomine, M., Torre, A., Totsuka, T., Tsuchiya, K., Tsujii, N., Tsuru, D., Tsutsui, H., Uchida, M., Ueda, Y., Uno, J., Urano, H., Usui, K., Utoh, H., Valisa, M., Vallar, M., Vallcorba-Carbonell, R., Vallet, J. -C., Varela, J., Vega, J., Verrecchia, M., Vieillard, L., Villone, F., Vincenzi, P., Wada, K., Wada, R., Wakatsuki, T., Wanner, M., Watanabe, F., Watanabe, K., Wauters, T., Wiesen, S., Wischmeier, M., Yagi, M., Yagyu, J., Yajima, M., Yokooka, S., Yokoyama, M., Yamamoto, S., Yamanaka, H., Yamauchi, K., Yamauchi, Y., Yamazaki, H., Yamazaki, K., Yamazaki, R., Yamoto, S., Yanagi, S., Yanagihara, K., Yoshizawa, N., Zani, L., and Zito, P.
- Subjects
assembly ,Cryostat ,Nuclear and High Energy Physics ,Materials science ,Tokamak ,Nuclear engineering ,Plasma ,Condensed Matter Physics ,Field coil ,ITER risk mitigation ,Overcurrent ,law.invention ,Control theory ,law ,Electromagnetic coil ,research plan ,broader approach ,Voltage - Abstract
Construction of the JT-60SA tokamak was completed on schedule in March 2020. Manufacture and assembly of all the main tokamak components satisfied technical requirements, including dimensional accuracy and functional performances. Development of the plasma heating systems and diagnostics have also progressed, including the demonstration of the favourable electron cyclotron range of frequency (ECRF) transmission at multiple frequencies and the achievement of long sustainment of a high-energy intense negative ion beam. Development of all the tokamak operation control systems has been completed, together with an improved plasma equilibrium control scheme suitable for superconducting tokamaks including ITER. For preparation of the tokamak operation, plasma discharge scenarios have been established using this advanced equilibrium controller. Individual commissioning of the cryogenic system and the power supply system confirmed that these systems satisfy design requirements including operational schemes contributing directly to ITER, such as active control of heat load fluctuation of the cryoplant, which is essential for dynamic operation in superconducting tokamaks. The integrated commissioning (IC) is started by vacuum pumping of the vacuum vessel and cryostat, and then moved to cool-down of the tokamak and coil excitation tests. Transition to the super-conducting state was confirmed for all the TF, EF and CS coils. The TF coil current successfully reached 25.7 kA, which is the nominal operating current of the TF coil. For this nominal toroidal field of 2.25 T, ECRF was applied and an ECRF plasma was created. The IC was, however, suspended by an incident of over current of one of the superconducting equilibrium field coil and He leakage caused by insufficient voltage holding capability at a terminal joint of the coil. The unique importance of JT-60SA for H-mode and high-β steady-state plasma research has been confirmed using advanced integrated modellings. These experiences of assembly, IC and plasma operation of JT-60SA contribute to ITER risk mitigation and efficient implementation of ITER operation.
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- 2022
35. 100 s negative ion accelerations for the JT-60SA negative-ion-based neutral beam injector
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Kashiwagi, M., primary, Hiratsuka, J., additional, Ichikawa, M., additional, Saquilayan, G. Q., additional, Kojima, A., additional, Tobari, H., additional, Umeda, N., additional, Watanabe, K., additional, Yoshida, M., additional, and Grisham, L., additional
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- 2021
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36. RADIATION DOSE REDUCTION AT LOW TUBE VOLTAGE WITH CORONARY ARTERY BYPASS GRAFT COMPUTED TOMOGRAPHY ANGIOGRAPHY BASED ON THE CONTRAST NOISE RATIO INDEX.
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Masuda T, Nakaura T, Funama Y, Sato T, Masuda S, Gotanda R, Arao K, Imaizumi H, Arao S, Ono A, Hiratsuka J, and Awai K
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- Humans, Radiation Dosage, Tomography, X-Ray Computed methods, Coronary Artery Bypass, Contrast Media, Radiographic Image Interpretation, Computer-Assisted, Coronary Angiography methods, Computed Tomography Angiography methods, Drug Tapering
- Abstract
To compare the radiation dose and diagnostic ability of the 100-kVp protocol, based on the contrast noise ratio (CNR) index, during coronary artery bypass graft (CABG) vessels with those of the 120-kVp protocol. For the 120-kVp scans (150 patients), the targeted image level was set at 25 Hounsfield units (HU) (CNR120 = iodine contrast/25 HU). For the 100-kVp scans (150 patients), the targeted noise level was set at 30 HU to obtain the same CNR as in the 120-kVp scans (i.e. using 1.2-fold higher iodine contrast, CNR100 = 1.2 × iodine contrast/(1.2 × 25 HU) = CNR120). We compared the CNRs, radiation doses, detection of CABG vessels and visualisation scores of the scans acquired at 120 and 100 kVp, respectively. At the same CNR, the 100-kVp protocol may help reduce the radiation dose by ⁓30% compared with the 120-kVp protocol, without degradation of diagnostic ability during CABG., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)
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- 2023
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37. Selective Melanoma Thermal Neutron Capture Therapy for Lymph Node Metastases
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Mishima, Y., Honda, C., Ichihashi, M., Shiono, M., Wadabayashi, N., Obara, H., Hiratsuka, J., Fukuda, H., Karashima, H., Kanda, K., Kobayashi, T., Yoshino, K., Soloway, Albert H., editor, Barth, Rolf F., editor, and Carpenter, David E., editor
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- 1993
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38. Boron Neutron Capture Therapy (BNCT) for Malignant Melanoma with Special Reference to Absorbed Doses to the Normal Skin and Tumor
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Fukuda, H, Hiratsuka, J, Kobayashi, T, Sakurai, Y, Yoshino, K, Karashima, H, Turu, K, Araki, K, Mishima, Y, and Ichihashi, M
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- 2003
39. Advances in the Control of Human Cutaneous Primary and Metastatic Melanoma by Thermal Neutron Capture Therapy
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Mishima, Y., Ichihashi, M., Honda, C., Shiono, M., Nakagawa, T., Obaral, H., Shirakawa, J., Hiratsuka, J., Kanda, K., Kobayashi, T., Nozaki, T., Aizawa, O., Sato, T., Karashima, H., Yoshino, K., Fukuda, H., Allen, Barry J., editor, Moore, Douglas E., editor, and Harrington, Baiba V., editor
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- 1992
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40. Tolerance Limits of the Normal Skin Treated by a Single Thermal Neutron Capture Therapy
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Fukuda, H., Ando, K., Honda, C., Ichihashi, M., Mishima, Y., Hiratsuka, J., Kobayashi, T., Kanda, K., Allen, Barry J., editor, Moore, Douglas E., editor, and Harrington, Baiba V., editor
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- 1992
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41. Vacuum Insulation in Negative Ion Accelerator with Long Gap and Large Surface for Fusion Application
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Kojima, A., primary, Murayama, M., additional, Kisaki, M., additional, Watanabe, K., additional, Shibata, N., additional, Tobari, H., additional, Ichikawa, M., additional, Hiratsuka, J., additional, Saquilayan, G. Q., additional, Shimabukuro, Y., additional, Kashiwagi, M., additional, and Yamano, Y., additional
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- 2021
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42. Boron Neutron Capture Therapy of Malignant Melanoma Using ${}^{10}{\rm B}\text{-Paraboronophenylalanine}$ with Special Reference to Evaluation of Radiation Dose and Damage to the Normal Skin
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Fukuda, H., Hiratsuka, J., Honda, C., Kobayashi, T., Yoshino, K., Karashima, H., Takahashi, J., Abe, Y., Kanda, K., Ichihashi, M., and Mishima, Y.
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- 1994
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43. Effect of patient characteristics on vessel enhancement on arterio-venous fistula CT angiography in a retrospective cohort study.
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Masuda T, Nakaura T, Funama Y, Sato T, Masuda S, Yoshiura T, Gotanda R, Arao K, Imaizumi H, Arao S, Ono A, Hiratsuka J, and Awai K
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- Humans, Retrospective Studies, Tomography, X-Ray Computed methods, Angiography methods, Body Weight, Contrast Media, Radiation Dosage, Computed Tomography Angiography methods, Fistula
- Abstract
To evaluate the effects of various patient characteristics on vessel enhancement on arterio-venous fistula (AVF) computed tomography (CT) angiography (AVF-CT angiography). A total of 127 patients with suspected or confirmed shunt stenosis and internal AVF complications were considered for inclusion in a retrospective cohort study. The tube voltage was 120 kVp, and the tube current was changed from 300 to 770 mA to maintain the image quality (noise index: 14) using automatic tube current modulation. To evaluate the effects of age, sex, body size, and scan delay on the CT number of the brachial artery or vein, we used correlation coefficients and multivariate regression analyses. There was a significant positive correlation between the CT number of the brachial artery or vein and age (R = 0.21 or 0.23, P < .01). The correlations were inverse with the height (r = -0.45 or -0.42), total body weight (r = -0.52 or -0.50), body mass index (r = -0.21 or -0.23), body surface area (body surface area [BSA]; r = -0.56 or -0.54), and lean body weight (r = -0.55 or -0.53) in linear regression analysis (P < .01 for all). There was a significant correlation between the CT number of the brachial artery or vein and scan delay (R = 0.19 or 01.9, P < .01). Only the BSA had significant effects on the CT number in multivariate regression analysis (P < .01). The BSA was significantly correlated with the CT number of the brachial artery or vein on AVF-CT angiography., Competing Interests: The authors have no conflicts of interest to disclose., (Copyright © 2023 the Author(s). Published by Wolters Kluwer Health, Inc.)
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- 2023
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44. COMPARISON OF THE 64- AND 80-DETECTOR ROW COMPUTED TOMOGRAPHY AMONG THE CT NUMBER AND RADIATION DOSE DURING LOWER EXTREMITY COMPUTED TOMOGRAPHY ANGIOGRAPHY.
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Moriwake R, Masuda T, Yamamoto A, Ikenaga H, Yoshida K, Takei Y, Yao D, Ono A, Hiratsuka J, and Tamada T
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- Humans, Tomography, X-Ray Computed, Lower Extremity diagnostic imaging, Lower Extremity blood supply, Radiation Dosage, Computed Tomography Angiography, Angiography methods
- Abstract
To compare the computed tomography (CT) number and the radiation dose between the 64 (group A) and 80-detector row (group B) during lower extremity computed tomography angiography (LE-CTA). We enrolled 144 patients underwent LE-CTA and compared the CT number for the popliteal arteries, radiation dose and the rate of the optimal CT number during the LE-CTA exceeding 200 HU between the two groups. The CT number for the popliteal arteries and mean dose-length product was significantly higher in Group A than in Group B (P < 0.01). The rate of the optimal CT number for the popliteal arteries was 23.6% with Group B scanner and 56.9% with Group A (P < 0.05). The 64-detector row CT was significantly higher in the CT number for the popliteal arteries, radiation dose and rate of the optimal CT number during the LE-CTA than the 80-detector row. Depiction ability did not improve by using a high CT scanner with a wider detector during LE-CTA., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)
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- 2023
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45. Usefulness of large beam-shaping filters at different tube voltages of newborn chest CT.
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Masuda T, Funama Y, Nakaura T, Sato T, Urayama K, Kiguchi M, Oku T, Yoshida M, Arao S, Ono A, Hiratsuka J, and Awai K
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- Infant, Newborn, Humans, Child, Radiation Dosage, Tomography Scanners, X-Ray Computed, Phantoms, Imaging, Tomography, X-Ray Computed methods, Filtration
- Abstract
Background: To investigate optimizing the use of different beam shaping filters (viz. small, medium and large) when using different tube voltages during the newborn chest computed tomography (CT) on a GE Lightspeed VCT scanner., Methods: We used pediatric anthropomorphic phantoms with a 64 detector-row CT scanner while scanning the chest. A real-time skin dosimeter (RD - 1000; Trek Corporation, Kanagawa, Japan) was positioned into the phantom center of the body, the surface of the body back, and the right and left mammary glands. We performed and compared six scan protocols using small, medium, and large beam shaping filters at 80 and 120 kVp protocols., Result: There were no significant differences in the image noise for the chest scan among the different beam shaping filters. By using the large beam shaping filter at 80 kVp, it was possible to reduce the exposure dose by 5% in comparison with the small beam shaping filter, and by 10% in comparison with the medium beam shaping filter. By using the large beam shaping filter at 120 kVp, it was possible to reduce the exposure dose by 15% in comparison with the small beam shaping filter and by 20% in comparison with the medium beam shaping filter (p < 0.01)., Conclusion: The large beam shaping filter had the most dose reduction effect during newborn chest CT on a GE Lightspeed VCT scanner. The additional copper filtration being present in the large bowtie filter of the GE Lightspeed CT scanner when using different tube voltages is more effective in reducing radiation exposure in children., (© 2023. Australasian College of Physical Scientists and Engineers in Medicine.)
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- 2023
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46. COMPARISON OF PEDIATRIC LENS DOSE MEASUREMENTS BETWEEN AXIAL SCAN MODE WITHOUT ACTIVE COLLIMATOR AND HELICAL SCAN MODE WITH ACTIVE COLLIMATOR BY USING A 64 DETECTOR-ROW COMPUTED TOMOGRAPHY SCANNER.
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Masuda T, Funama Y, Nakaura T, Sato T, Urayama K, Kiguchi M, Oku T, Arao S, Ono A, Hiratsuka J, and Awai K
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- Infant, Newborn, Child, Humans, Infant, Child, Preschool, Radiation Dosage, Tomography Scanners, X-Ray Computed, Phantoms, Imaging, Tomography, X-Ray Computed methods, Lens, Crystalline
- Abstract
To investigate the pediatric eye lens entrance surface dose for both axial scan modes without an active collimator and helical scan modes with an active collimator on 64 detector-row computed tomography (CT) scanner. We used three pediatric anthropomorphic phantoms with axial and helical scan modes from the superior orbitomeatal line to the crown of the head. We compared the measured dose values of the real-time skin dosemeter at the surfaces of the lens and the image noise at different scan modes. The median measured dose values for the lens of newborn, 1-year-old and the 5-year-old phantom were 31.3, 0.97 and 0.65 mGy, respectively, in the axial scan mode and 0.89, 1.21 and 0.71 mGy, respectively, in the helical scan mode. Compared with helical scans with an active collimators, axial scans can reduce the lens dose by ∼10% during head CT on 64 detector-row CT scanner without deterioration of image noise., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)
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- 2022
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47. A long-term survivor of leiomyosarcoma around the right side of the base of the skull: effective radiotherapy combined with intra-arterial chemotherapy
- Author
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Tokiya, R., Imajo, Y., Yoden, E., Hiratsuka, J., Kobatake, M., Gyoten, M., Imai, S., and Kajihara, Y.
- Published
- 2002
- Full Text
- View/download PDF
48. Lung adenosquamous carcinoma with lingual and cardiac metastases
- Author
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Yoden, E., Iizuka, M., Deguchi, H., Fukuya, T., Imajo, Y., Hiratsuka, J., Hosoda, M., Namio, H., and Toyoda, H.
- Published
- 2000
- Full Text
- View/download PDF
49. Experimental and numerical investigation on the asymmetry of the current density extracted through a plasma meniscus in negative ion accelerator
- Author
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Denizeau, S, primary, Aprile, D, additional, Fubiani, G, additional, Taccogna, F, additional, Minelli, P, additional, Ichikawa, M, additional, Hiratsuka, J, additional, Kashiwagi, M, additional, Kojima, A, additional, and Chitarin, G, additional
- Published
- 2020
- Full Text
- View/download PDF
50. Usefulness of the patient-specific contrast enhancement optimizer simulation software during the whole-body computed tomography angiography.
- Author
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Masuda T, Higaki T, Nakaura T, Funama Y, Matsumoto Y, Sato T, Okimoto T, Gotanda R, Arao K, Imaizumi H, Arao S, Hiratsuka J, and Awai K
- Subjects
- Body Weight, Humans, Software, Tomography, X-Ray Computed methods, Computed Tomography Angiography methods, Contrast Media
- Abstract
To evaluate whether the patient-specific contrast enhancement optimizer simulation software (p-COP) is useful for predicting contrast enhancement during whole-body computed tomography angiography (WBCTA). We randomly divided the patients into two groups using a random number table. We used the contrast material (CM) injection protocol selected by p-COP in group A (n = 52). The p-COP used an algorithm including data on the individual patient's cardiac output. Group B (n = 50) was assigned to the conventional CM injection protocol based on body weight. We compared the CT number in the abdominal aorta at the celiac artery level between the two groups and classified them as acceptable (> 280 HU) and unacceptable (< 279 HU) based on the optimal CT number for the WBCTA scans. To evaluate the difference in both injection protocols, we compared the visual inspection of the images of the artery of Adamkiewicz in both protocols. The CM dosage and injection rate in group A were significantly lower than those in group B (480.8 vs. 501.1 mg I/kg and 3.1 vs. 3.3 ml/s, p < 0.05). The CT number of the abdominal aorta at the celiac level was 382.4 ± 62.3 HU in group A and 363.8 ± 71.3 HU in group B (p = 0.23). CM dosage and injection rate were positively correlated to cardiac output for group A (r = 0.80, p < 0.05) and group B (r = 0.16, p < 0.05). The number of patients with an acceptable CT number was higher in group A [46/6 (86.7%)] than in group B [43/7 (71.4%)], but not significant (p = 0.71). The visualization rate for the Adamkiewicz artery was not significantly different between groups A and B (p = 0.89). The p-COP was useful for predicting contrast enhancement during WBCTA with a lower CM dosage and a lower contrast injection rate than that based on the body weight protocol. In patients with lower cardiac output a reduction in contrast injection rate and CM dosage did not lead to a reduced imaging quality, thus particularly in this group CM dosage can be reduced by p-COP., (© 2022. Springer Japan KK, part of Springer Nature.)
- Published
- 2022
- Full Text
- View/download PDF
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