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42 results on '"Kumata, Y."'

3. Inguinal Hernia: Recurrences, Tailored Surgery & Pubic Inguinal Pain Syndrome (Sportsman Hernia)

Author

Shapovalyants, S. G., Michalev, A. I., Timofeev, M. E., Polushkin, V. G., Volkov, V. V., Oettinger, A. P., Lorenz, R., Koch, A., Köckerling, F., Burcharth, J., Andresen, K., Pommergaard, H.-C., Bisgaard, T., Rosenberg, J., Friis-Andersen, H., Li, J. W., Le, F., Zheng, M. H., Roscio, F., Combi, F., Frattini, P., Clerici, F., Scandroglio, I., Zhao, X., Nie, Y., Liu, J., Wang, M., Kuo, L., Tsai, C. C., Mok, K. T., Liu, S. I., Chen, I. S., Chou, N. H., Wang, B. W., Chen, Y. C., Chang, B. M., Liang, T. J., Kang, C. H., Tsai, C. Y., Dudai, M., Zeng, Y. J., Liu, T. L., Shi, C. M., Sun, L., Shu, R., Kawaguchi, M., Takahashi, Y., Tochimoto, M., Horiguchi, Y., Kato, H., Tawaraya, K., Hosokawa, O., Huang, C., Sorge, A., Masoni, L., Maglio, R., Di Marzo, F., Mosconi, C., Gallinella Muzi, M., Kato, J., Iuamoto, L., Meyer, A., Almehdi, R., Alazri, Y., Sahoo, B., Ahmed, R., Nasser, M., Inaba, T., Fukuhsima, R., Yaguchi, Y., Horikawa, M., Ogawa, E., Kumata, Y., Pokorny, H., Fischer, I., Resinger, C., Lorenz, V., Podar, S., Längue, F., Etherson, K., Atkinson, K., Khan, S., Pradeep, R., Viswanath, Y., Munipalle, P. C., Chung, J., Schuricht, A., Magalhães, C., Marcos, M., Flores, A., Sekmen, U., Paksoy, M., Ceriani, F., Cutaia, S., Canziani, M., and Caravati, F.

Published
2015
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4. Topic: Rare and Special Cases, The Real “Strange Cases”

Author

Zarrinkhoo, E., Miller, J., Walker, A., Weisman, M., Towfigh, S., Tushev, R., Petkov, I., Tsutsumi, G., Leija, C., Castillo, E., Moncada, F., Mendoza, M., Morua, A. Garcia, Bravo, R., Azcarate, A., Zavala, H., Coman, I. S., Radu, E. V., David, O. I., Stoian, A. R., Strambu, V. E., Iancu, C., Gheorghiu, L. I., Grigorean, V. T., Sinescu, D. R., Plesa, E., Lupascu, C., Straja, D. N., Iacobini, M. A., Ponten, J., Luyer, M., Nienhuijs, S., Permekerlis, A., Petousis, S., Miroforidis, A., Milias, K., Kouridakis, P., Park, J., Kim, D., Nakata, R., Chihara, N., Suzuki, H., Watanabe, M., Uchida, E., Nakanaga, H., Irie, S., Endo, Y., Sonoda, H., Minamimura, K., Kobayashi, T., Hirata, T., Mafune, K., Milosevic, P., Babovic, M., Sorat, D., Light, D., Aawsaj, Y., Horgan, L., Latham, L., Ceriani, I., Livraghi, L., Berselli, M., Gambitta, B., Galvanin, J., Cotronea, C., Pagano, G., Farassino, L., Ambrosoli, A., Crespi, A., Cocozza, E., Kulic, V., Matkovic, M., Percevic, G., Katayama, T., Kumata, Y., Ogawa, E., Horikawa, M., Yaguchi, Y., Inaba, T., Fukushima, R., Jaroszewski, D., Johnson, K., Harold, K., Mori, M., Kumata, M., Guarnieri, F., Smaldone, W., Gaspard, M., Bomben, F., Ceranto, S., Gamarra, M. Florez, Soria, M. Peña, Olivero, C. Fraile, Martinez, M. Josa, Contin, M. Perez, Gómez, J. Cabeza, Jiménez-Valladolid, D., Torres García, A., Descloux, A., Pohle, S., Schramm, B., Schneider, U., Nocito, A., Navarrete, M. Cesardo, Solis, A., Ortega, N., Bergamini, S., Semeraro, C., Armengol, M., Cano, M. Lopez, Torrecilla, N. Ortega, Cavallaro, G., Iorio, O., Avallone, M., Ruscio, S., Rizzello, M., Silecchia, G., Butron, T., Rubio, E., Passas, J., Sopeña, R., Lagaron, E., Silan, F., Garcia, V., Bernal, J., Ortiz, M., Guadarrama, J., Shirai, K., Lomas, M., Shah, B. Bc, and Degloorkar, S. Sarang

Published
2015
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5. Topic: Inguinal Hernia — Unsolved problem in the daily practice

Author

Yasuo, S., Kenichi, Y., Ueno, N., Arimoto, A., Hosono, M., Yoshikawa, T., Toyokawa, A., Kakeji, Y., Tsai, Y., Tsai, C., Sul, J., Lim, M., Park, J., Jang, C. E., Santilli, O., Tripoloni, D., Santilli, H., Nardelli, N., Greco, A., Estevez, M., Sakurai, S., Ryu, S., Cesana, G., Ciccarese, F., Uccelli, M., Grava, G., Castello, G., Carrieri, D., Legnani, G., Olmi, S., Naito, M., Yamamoto, H., Sawada, Y., Mandai, Y., Asano, H., Ino, H., Tsukuda, K., Nagahama, T., Ando, M., Ami, K., Arai, K., Miladinovic, M., Kitanovic, A., Lechner, M., Mayer, F., Meissnitzer, M., Fortsner, R., Öfner, D., Köhler, G., Jäger, T., Kumata, Y., Fukushima, R., Inaba, T., Yaguchi, Y., Horikawa, M., Ogawa, E., Katayama, T., Kumar, P. S., Unal, D., Caparlar, C., Akkaya, T., Mercan, U., Kulacoglu, H., Barreiro, J. Jorge, Baer, I. García, García, L. Solar, Cumplido, P. Lora, Florez, L. J. García, Muñiz, P. Fernandez, Fujino, K., Mita, K., Ohta, E., Takahashi, K., Hashimoto, M., Nagayasu, K., Murabayashi, R., Asakawa, H., Koizumi, K., Hayashi, G., Ito, H., Felberbauer, F., Strobl, S., Kristo, I., Riss, S., Prager, G., El Komy, H., El Gendi, A., Nabil, W., Karam, M., El Kayal, S., Chihara, N., Suzuki, H., Watanabe, M., Uchida, E., Chen, T., Wang, J., Wang, H., Bouchiba, N., Elbakary, T., Ramadan, A., Elakkad, M., Berney, C., Vlasov, V., Babii, I., Pidmurnyak, O., Prystupa, M., Asakage, N., Molinari, P., Contino, E., Guzzetti, L., Oggioni, M., Sambuco, M., Berselli, M., Farassino, L., Cocozza, E., Crespi, A., Ambrosoli, A., and Zhao, Y.

Published
2015
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6. Hippocampal Sparing Radiotherapy in adults with Primary Brain Tumors: A comparative planning and dosimetric study using IMPT, IMRT and 3DCRT

Author

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, Shahnazi, K, Lu, J, Jiang, G, Mao, J, Walser, M, Bojaxhiu, B, Kawashiro, S, Tran, S, Pica, A, Bachtiary, B, Weber, D, Gaito, S, Abravan, A, Richardson, J, Colaco, R, Saunders, D, Brennan, B, Petersen, I, Ahmed, S, Laack, N, Mizoe, J.E, Iizumi, T, Minohara, S, Kusano, Y, Matsuzaki, Y, Tsuchida, K, Serizawa, I, Yoshida, D, Katoh, H, Sakurai, H, Tujii, H, Kim, T.H, Park, J.W, Bo Hyun, K, Hyunjung, K, Sung Ho, M, Sang Soo, K, Sang Myung, W, Young-Hwan, K, Woo Jin, L, Dae Yong, K, Hong, Z, Wang, Z, Koroulakis, A, Molitoris, J, Kaiser, A, Hanna, N, Jiang, Y, Regine, W, DeCesaris, C.M, Choi, J.I, Carr, S.R, Burrows, W.M, Regine, W.F, Simone, C.B, Aihara, T, Hiratsuka, J, Kamitani, N, Higashino, M, Kawata, R, Kumada, H, Ono, K, Chou, Y.C, Dippolito, E, Bonora, M, Alterio, D, Gandini, S, Jereczeck, B.A, Kelly, C, Dobeson, C, Iqbal, S, Chatterjee, S, Hague, C, Li, T, Lin, A, Lukens, J, Slevin, N, Thomson, D, van Herk, M, West, C, Teo, K, Jeans, E, Manzar, G, Patel, S, Ma, D, Lester, S, Foote, R, Friborg, J, Jensen, K, Hansen, C.R, Andersen, E, Andersen, M, Eriksen, J.G, Johansen, J, Overgaard, J, Grau, C, Dědečková, K, Vítek, P, Ondrová, B, Sláviková, S, Zapletalová, S, Zapletal, R, Vondráček, V, Rotnáglová, E, Kwanghyun, J, Woojin, L, Dongryul, O, Yong Chan, A, Paudel, N, Schmidt, S, Ruckman, M, Gans, S, Stauffer, M, Helenowski, I, Patel, U, Samant, S, Gentile, M, Damico, N, Yao, M, Shuja, M, Routman, D.M, Foote, R.L, Garces, Y.I, Neben-Wittich, M.A, Patel, S.H, McGee, L.A, Harmsen, W.S, Ma, D.J, Sommat, K, Tong, A.K.T, Hu, J, Ong, A.L.K, Wang, F, Sin, S.Y, Wee, T.S, Tan, W.K, Fong, K.W, Soong, Y.L, Wallace, N, Fredericks, S, Fitzgerald, T, Vernimmen, F, Petringa, G, Cirrone, P, Agosteo, S, Attili, A, Cammarata, F.P, Cuttone, G, Conte, V, La Tessa, C, Manti, L, Rosenfeld, A, Lojacono, P.A, Hennings, F, Fattori, G, Peroni, M, Lomax, A, Hrbacek, J, Nguyen, H.G, Bach Cuadra, M, Sznitman, R, Schalenbourg, A, Pflaeger, A, Weber, A, Seidel, S, Stark, R, Heufelder, J, Mailhot Vega, R, Bradley, J, Lockney, N, Macdonald, S, Liang, X, Mazal, A, Mendenhall, N, Sher, D, Korreman, S.S, Andreasen, S, Petersen, J.B, Offersen, B.V, Gergelis, K, Jethwa, K, Whitaker, T, Shiraishi, S, Shumway, D, Press, R, Shelton, J, Zhang, C, Dang, Q, Tian, S, Shu, T, Seldon, C, Jani, A, Zhou, J, McDonald, M, Gort, E, Beukema, J.C, Spijkerman-Bergsma, M.J, Both, S, Langendijk, J.A, Matysiak, W.P, Brouwer, C.L, Baba, K, Numajiri, H, Murofushi, K, Oshiro, Y, Mizumoto, M, Onishi, K, Nonaka, T, Ishikawa, H, Okumura, T, Dominietto, M, Adam, K, Ahlhelm, F.J, Safai, S, Abdul-Jabbar, L, Song, J, Tseng, Y. D, Rockhill, J, Fink, J, Chang, L, Halasz, L. M, Guntrum, F, Steinmeier, T, Nagaraja, S, Jazmati, D, Geismar, D, Timmermann, B, Plaude, S, Lynch, C, Petras, K, Chang, J, Grimm, S, Lukas, R, Kumthekar, P, Merrell, R, Kalapurakal, J, Gross, J, Hoppe, B, Simone, C, Nichols, R.C, Pham, D, Mohindra, P, Chon, B, Morris, C, Li, Z, Flampouri, S, Powell, J.R, Murray, L, Burnet, N, Fernandez, S, Lingard, Z, McParland, L, O’Hara, D, Whitfield, G, Short, S.C, Guan, X, Gao, J, Hu, W, Yang, J, Xing, X, Hu, C, Kong, L, Zou, Z, Thomas, H, Sasidharan, B.K, Rengan, R, Zeng, J, Busold, S, Heese, J, Cerello, P, Bottura, L, Felcini, E, Ferrero, V, Monaco, V, Pennazio, F, de Rijk, G, Chang, H, KyungDon, C, Byunghun, H, Gyuseong, C, Chilukuri, S, Jalali, R, Panda, P.K, Korn, G, Larosa, G, Russo, A, Schillaci, F, Scuderi, V, Margarone, D, Fredén, E, Almhagen, E, Mejaddam, Y, Siegbahn, A, Guardiola, C, Gómez, F, Prieto-Pena, J, Fleta, C, De Marzi, L, Prezado, Y, Kabolizadeh, P, Reitemeier, P, Navin, M, Hamstra, D, Anderson, J, Stevens, C, Bartolucci, L, Adrien, C, Lejars, M, Vaillant, M, Fourquet, A, Robillard, M, Costa, E, Kirova, Y, Kolano, A.M, Degiovanni, A, Farr, J.B, Kundel, S, Pinto, M, Kurichiyanil, N, Würl, M, Englbrecht, F, Hillbrand, M, Schreiber, J, Parodi, K, Kurup, A, Magliari, A, Perez, J, Masui, S, Asano, T, Owen, H, Burt, G, Apsimon, R, Pitman, S, Popovici, M.A, Vasilache, R, Safavi-Naeini, M, Chacon, A, Howell, N, Middleton, R.J, Fraser, B, Guatelli, S, Rendina, L, Matsufuji, N, Gregoire, M.C, Sikora, K, Pettingell, J, Crocker, M, Saplaouras, A, Snijders, A, Mao, J.H, Nakamura, K, Bin, J, Gonsalves, A, Mao, H.S, Steinke, S, Roach, M, Leemans, W, Blakely, E, Takayama, K, Tan, T.S, Wee, J.T.S, Tuan, J.K.L, Wang, M.L.C, Quah, J.S.H, Tay, N.C.W, Lee, J.C.L, Lim, J.K.H, Oei, A.A, Tan, J.M, Park, S.Y, Chow, W.W.L, Omar, Y.B, Chew, P.G, Taylor, P, Lee, J, Tsurudome, T, Hirabayashi, M, Tsutsui, H, Yoshida, J, Takahashi, N, Kamiguchi, N, Hashimoto, A, Tachikawa, T, Mikami, Y, Kumata, Y, Wang, M, Chua, E.T, Wee, J, Wong, F.Y, Tuan, J, Master, Z, Wong, S, Welsh, J, Hentz, C, Pankuch, M, DeJongh, F, Xia, Y, Aitkenhead, A.H, Appleby, R, Merchant, M.J, MacKay, R.I, Young, H, Hughes, V, Alsulimane, M, Barajas, C.A, Taylor, J, Casse, G, Omar, A, Burdin, S, Boon, C, Lester, J, Thomas, A.J, Khan, A, Huthart, L, Leaver, K, Snell, J, Warlow, A, Burigo, L.N, Oborn, B, Belosi, F, Fredh, A, van de Water, S, Schneider, T, Patriarca, A, Bergs, J, Hierso, E, Hirayama, R, Martínez-Rovira, I, Seksek, O, Shirato, H, Nakamura, T, Ogino, T, Akimoto, T, Tamamura, H, Nishimoto, N, Proton-Net, G, Shimizu, S, Fabiano, S, Bangert, M, Guckenberger, M, Unkelbach, J, Mcauley, G, Teran, A, Slater, J, Wroe, A, Boon, I, Clorley, J, Owen, K, Oliver, T, Cicchetti, A, Ballarini, F, Rancati, T, Carrara, M, Zaffaroni, N, Bezawy, R. El, Carante, M, Valdagni, R, Faccini, R, Forte, G.I, Dhinsey, S, Greenshaw, T, Parsons, J, Welsch, C, Stock, M, Grevillot, L, Kragl, G, Carlino, A, Martino, G, Hug, E, Arya, H, Chirayath, V.A, Jin, M, Weiss, A.H, Glass, G.A, Chi, Y, Kaplan, L.P, Perez, R.A, Vestergaard, A, Gittings, E, Stamper, J, Beltran, C, Mark, P, Furutani, K, McAuley, G, Gordon, J, Boisseau, P, Dart, A, Nett, W, Kollipara, S, Grossmann, M, Actis, O, Diete, W, Rudolf, D, Klein, H.U, Kramert, R, Meer, D, Venkataraman, C, Waterstradt, T, Hérault, J, Bergerot, J.M, Hsi, W.C, Zhou, R, Zhang, X, Yang, F, Yinxiangzi, S, Sun, J, Li, X, Zhiling, C, Yuehu, P, Mengya, G, Haiyun, K, Qi, L, Zhentang, Z, Lin, Y.H, Tan, H.Q, Tan, L.K.R, Ang, K.W, Xiufang, L, Milkowski, K, Pang, D, Jones, M, Mizota, M, Tsunashima, Y, Himukai, T, Ogata, R, Uno, T, Ouyang, L, Jia, B, Li, D, Paul, K, Pullia, M, Savazzi, S, Lante, V, Foglio, S, Donetti, M, Falbo, L, Casalegno, L, Rousseau, M, Shinomiya, K, Yazawa, T, Iseki, Y, Kanai, Y, Hirata, Y, Powers, J, Solovev, A, Chernukha, A, Saburov, V, Shegai, P, Ivanov, S, Kaprin, A, Stolarczyk, L, Mojżeszek, N, Van Hoey, O, Farah, J, Domingo, C, Mares, V, Ploc, O, Trinkl, S, Harrison, R, Toltz, A, Nevitt, Z, Bloch, C, Taddei, P, Saini, J, Regmi, R, Yuntao, S, Jinxing, Z, Yap, J.S.L, Hentz, M, Silverman, J, Jolly, S, Boogert, S, Nevay, L, Kacperek, A, Schnuerer, R, Resta-Lopez, J, Zeng, X, Zheng, J, Li, M, Han, M, Song, Y, Holm, A, Korreman, S, Petersen, J.B.B, Bäumer, C, Fuenstes, C, Janson, M, Matic, A, Wulff, J, Psoroulas, S, Lomax, T, Arjomandy, B, Athar, B, Tesfamicael, B, Bejarano Buele, A, Deemer, J, Kozlyuk, V, VanSickle, K, Bolt, R, van Goethem, M.J, Langendijk, J, van t Veld, A, Chen, K.L, Wlodarczyk, B, Wu, H, Chen, Z, Shen, L, Fachouri, N, Placidi, L, Böhlen, T, Ieko, Y, Iwai, T, Nemoto, K, Suzuki, K, Kanai, T, Miyasaka, Y, Harada, M, Yamashita, H, Kubota, I, Kayama, T, Jensen, M.F, Bræmer-Jensen, P, Randers, P, Søndergaard, C.S, Nørrevang, O, Taasti, V.T, Kong, H, Yin, C, Gu, M, Liu, M, Shu, H, Chongxian, Y, Haiyang, Z, Juan, Z, Ming, L, Manzhou, Z., Liying, Z, Kecheng, C, Xiaolei, D, Castro, J, Freire, J, Cremades, M, Moral, L, Rico, P, Ares, C, Miralbell, R, Shi, J, Xia, J, Wang, B, Li, Q, Liu, X, Sung, C.C, Chen, W.P, Liao, T.Y, Takashina, M, Hamatani, N, Tsubouchi, T, Yagi, M, Mizoe, J, Titt, U, Mirkovic, D, Yepes, P, Wang, Q, Grosshans, D, Wieser, H.P, Mohan, R, Vadrucci, M, Xiao, G, Cai, X, Li, G, Yuan, Y, Lu, R, Sun, G, Zhang, M, Deming, L, lianhua, O, Takada, K, Tanaka, S, Matsumoto, Y, Naito, F, Kurihara, T, Nakai, K, Matsumura, A, Sakae, T, Shamurailatpam, D, P, K, Mp, N, A, M, Kg, G, T, R, C, S, J, R, Rozes, A, Dutheil, P, Batalla, A, Vela, A, Rana, S, Bennouna, J, Gutierrez, A, He, P, Shen, G, Dai, Z, Ma, Y, Chen, W, Pandey, J, Chirvase, C, Osborne, M, Ilsley, E, Di Biase, I, Kato, T, Hirose, K, Arai, K, Motoyanagi, T, Harada, T, Takeuchi, A, Kato, R, Tanaka, H, Mitsumoto, T, Takai, Y, Bolsa-Ferruz, M, Palmans, H, Chen, Y.S, Wu, S.W, Huang, H.C, Wang, H.T, Yeh, C.Y, Chen, H.H, Cook, H, Lourenço, A, Dal Bello, R, Magalhaes Martins, P, Hermann, G, Kihm, T, Seimetz, M, Brons, S, Seco, J, De Saint-Hubert, M, Swakon, J, De Freitas Nascimento, L, Tessaro, V.B, Poignant, F, Gervais, B, Beuve, M, Galassi, M.E, Harms, J, Chang, C.W, Zhang, R, Lin, Y, Langen, K, Liu, T, Lin, L, Howard, M, Denbeigh, J, Remmes, N, Debrot, E, Herman, M, Huang, Y.Y, Tsai, S.H, Fang, F.M, Mizuno, H, Sagara, T, Yamazaki, Y, Kato, M, Oyama, S, Pembroke, C, Joslin-Tan, T, Maggs, R, O’Neil, K, Barrett-Lee, P, Staffurth, J, Resch, A, Heyes, P, Georg, D, Fuchs, H, Hideyuki, M, katsuhisa, N, Wataru, Y, Samnøy, A.T, Ytre-Hauge, K.S, Povoli, M, Kok, A, Summanwar, A, Linh, T, Malinen, E, Röhrich, D, Asp, J, Santos, A, Afshar, V.S, Zhang, W.Q, Bezak, E, a, M, k, G, p, K, mp, N, t, R, c, S, j, R, Smith, B, Hammer, C, Hyer, D, DeWerd, L, Culberson, W, Brooke, M, Straticiuc, M, Craciun, L, Matei, C.E, Radu, M, Xiao, M, Paschalis, S, Joshi, P, Price, T, Mehta, M, Graça, J, Biglin, E, Aitkenhead, A, Price, G, Williams, K, Chadwick, A, Schettino, G, Robinson, A, Kirkby, K, Catanzano, D, Cessac, R, Rutherford, R, Ahmed, A, Mohammadi, A, Tashima, H, Yamaya, T, Chavez Barajas, C, Taylor, A, Vossebeld, J, Barwick, I, CHEON, W, Jo, K, Ahn, S.W, Cho, J, Han, Y, Choi, H.H.F, Cheung, C.W, Cohilis, M, Lee, J.A, Sterpin, E, Souris, K, Mundy, D, Petasecca, M, Rosenfeld, A.B, Boso, A, Di Fulvio, A, Becchetti, F.D, Torres-Isea, R.O, Febbraro, M, Gagnon-Moisan, F, Feng, Y, Fontana, M, Etxebeste, A, Dauvergne, D, Letang, J.M, Testa, E, Sarrut, D, Maxim, V, Gajewski, J, Durante, M, Garbacz, M, Krah, N, Krzempek, K, Schiavi, A, Skrzypek, A, Tommasino, F, Ruciński, A, Gillin, M, Sahoo, N, Zhu, X.R, Van Delinder, K.W, Crawford, D, Khan, R, Gräfe, J, Kakiuchi, G, Shioyama, Y, Shimokomaki, R, Huang, Z, Wang, W, Sheng, Y, Lee, M.W, Jan, M.L, Hong, J.H, Okamoto, K, Sato, H, Kalantan, S, Boston, A, Kang, Y, Shen, J, Casey, W, Vern-Gross, T, Wong, W, McGee, L, Halyard, M, Keole, S, Kelleter, L, Radogna, R, Saakyan, R, Basharina-Freshville, A, Attree, D, Volz, L, Komenda, W, Krzempek, D, Mierzwińska, G, Barbara, M, Kopeć, R, Lan, J.H, Chang, F.X, Lin, C.H, Lee, T.F, Ahn, S, Cheon, W, Lee, M, Letellier, V, Osorio, J, Dreindl, R, Livingstone, J, Gallin-Martel, M.L, Létang, J.M, Marcatili, S, Morel, C, Maggi, P, Chen, H, Yang, H, Panthi, R, Mackin, D, Peterson, S, Beddar, S, Polf, J, Masuda, T, Nishio, T, Sano, A, Tomozawa, H, Nishio, A, Tsuneda, M, Okamoto, T, Karasawa, K, Miszczynska Giza, O, Sánchez-Parcerisa, D, Herraiz, J. L, Rojo-Santiago, J, Udias, J.M, Mitrović, U, Hager, M, List, I, Fischer, C, Cecowski, M, Gajšek, R, Mizutani, S, Hotta, K, Baba, H, Tanizaki, N, Yamaguchi, T, Moon, S.Y, Rah, J.E, Yoon, M, Shin, D, Nebah, P, Dugas, J, Syh, J, Maynard, M, Marsh, N, Rosen, L, Nichiporov, D, Watts, D.A, Chen, Y, Petterson, M, Lee, W.D, Penfold, S.N, Ruebel, N, Piersimoni, P, Mille, M, Mossahebi, S, Chen-Mayer, H, Allport, P, Green, S, Shaikh, S, Walker, D, Qamhiyeh, S, Levegruen, S, Kutscher, S, Kranke, H, Olbrich, G, Stuschke, M, Baran, J, Pawlik-Niedzwiecka, M, Moskal, P, Rutherford, H, Poenisch, F, Martin, C, Wu, R, Mayo, L.L, Shah, S.J, Frank, S.J, Gunn, G.B, Sakurai, Y, Takata, T, Kondo, N, Schlegel, N, Deng, Y, Sun, W, Wu, X, Yap, J, Zhang, H, Szumlak, T, Schuy, C, Simeonov, Y, Zink, K, Graeff, C, Weber, U, Allred, B, Robertson, D, Dewees, T, Gagneur, J, Stoker, J, Stützer, K, Valentini, C, Agolli, L, Hölscher, T, Thiele, J, Dutz, A, Löck, S, Krause, M, Baumann, M, Richter, C, Takayanagi, T, Uesaka, T, Nakamura, Y, Unlu, M.B, Kuriyama, Y, Uesugi, T, Ishi, Y, Umegaki, K, Matsuura, T, Watts, D. A, Huisman, B, Valladolid Onecha, V, Fraile, L.M, Sanchez Parcerisa, D, España, S, Ze, W, Chen, H.Y, Chuang, K.S, Wilson, M, Lui, J, Noble, D, Holloway, S, Yap, J.H.H, Chew, M.M.L, Pang, P.P, Lim, C.J.C, Gan, S.A, Tan, T.W.K, Shen, Z.M, Moyers, M, Qianxia, W, Chen, H.L, Li, J, Lin, J, Zhao, L, Myers, W, Ates, O, Faught, J, Yan, Y, Faught, A, Sobczak, D, Hua, C.H, Moskvin, V, Merchant, T, Henkner, K, Ecker, S, Chaudhri, N, Ellerbrock, M, Jäkel, O, Hernandez Morales, D, Augustine, K, Johnson, J, Younkin, J, Fiorina, E, Mattei, I, Morrocchi, M, Sarti, A, Traini, G, Valle, S.M, Bert, C, Karger, C.P, Kamada, T, Scholz, M, DeLuca, P.M, De Simoni, M, Dong, Y, Embriaco, A, Fischetti, M, Mancini-Terracciano, C, Mirabelli, R, Muraro, S, Lens, E, de Blécourt, A, Schaart, D, Vos, F, van Dongen, K, Berthold, J, Khamfongkhruea, C, Petzoldt, J, Wohlfahrt, P, Pausch, G, Janssens, G, Smeets, J, Shamblin, J, Blakey, M, Moore, R, Matteo, J, Schreuder, N, Derenchuk, V, Shin, J, Jee, K.W, Clasie, B.M, Depauw, N, Batin, E, Madden, T.M, Schuemann, J, Paganetti, H, Kooy, H.M, Daniel, M, Abbassi, L, Arsène-Henry, A, Amessis, M, Maes, S, O’Ryan-Blair, A, Laval, G, Ermoian, R, Taddei, P. J, Andersson, K, Norrlid, O, Lindbäck, E, Vallhagen Dahlgren, C, Witt Nyström, P, Argota Perez, R, Sharma, M.B, Elstrøm, U.V, Bizzocchi, N, Albertini, F, Branco, D, Kry, S, Rong, J, Frank, S, Followill, D, Busch, K, Muren, L.P, Thörnqvist, S, Andersen, A.G, Pedersen, J, Dong, L, Cao, W, Bai, X, Van Lobenstein, N, Traneus, E, Anson, C, Comi, S, Marvaso, G, Russo, S, Giandini, T, Avuzzi, B, Ciardo, D, Cattani, F, Jereczek-Fossa, B, Cotterill, J, Esposito, M, Winter, A, Allinson, N, Liu, G, Yan, D, Jawad, S, Dilworth, J, Chen, P, Ackermann, B, Florijn, M, Sharfo, A.W.M, Wiggenraad, R.G.J, van Santvoort, J.P.C, Petoukhova, A.L, Hoogeman, M.S, Mast, M.E, Dirkx, M.L.P, Fujitaka, S, Fujii, Y, Nihongi, H, Nakayama, S, Ho, M.W, Artz, M, Tong, K.T.A, Hytonen, R, Koponen, T, Niemela, P, Iancu, G, Lautenschlaeger, S, Eberle, F, Horst, F, Ringbaek, T, Engenhart-Cabillic, R, Kim, M.J, Hong, C.S, Kim, Y.B, Park, S.H, Kim, J.S, Reiterer, J, Steffal, C, Gora, J, Kann, T, Schratter-Sehn, A.U, Li, H, Chen, M, wu, R, Li, Y, zhang, X, Gautam, A, poenisch, F, sahoo, N, Zhu, R, Lin, M, Chang, J.T.C, Maeda, Y, Sato, Y, Shibata, S, Bou, S, Yamamoto, K, Sasaki, M, Fuwa, N, Takamatsu, S, Kume, K, Lim, F, Faller, F, Stiller, W, Ming, X, Hui, H, Mukawa, T, Takashi, Y, Stephenson, L, Pang, E.P.P, Paz, A.E, Yoshida, Y, Righetto, R, Vecchi, C, Alparone, A, De Spirito, M, Radhakrishnan, S, Chandrashekaran, A, Nandigam, J, Sarma, Y, Rechner, L, Munck af Rosenschöld, P, Bäck, A, Johansen, T.S, Schut, D.A, Aznar, M.C, Nyman, J, Ren, X, Rosas, S, Vanderstraeten, R, Jyske, T, Jari, L, Yuenan, W, Henthorn, N, Warmenhoven, J, Merchant, M, Kirkby, N, Ranald, M, Stefanowicz, S, Zschaeck, S, Troost, E.G.C, Stubington, E, Ehrgott, M, Nohadani, O, Shentall, G, Sun, T, yin, Y, Lin, X, Yoshimura, T, Matsuo, Y, Yamazaki, R, Takao, S, Miyamoto, N, Toussaint, L, Indelicato, D.J, Lassen-Ramshad, Y, Kirby, K, Mikkelsen, R, Di Pinto, M, Høyer, M, Stokkevåg, C.H, Van Herk, M, Shortall, J, Green, A, Vasquez Osorio, E, Mackay, R, Navratil, M, Andrlik, M, Chiang, Y.Y, Yeh, Y.H, Yeh, Y.J, Chang, T.C, Eaton, B, Yang, X, Esiashvili, N, Gu, W, Ruan, D, O’Connor, D, Zou, W, Tsai, M.Y, Jia, X, Sheng, K, Hyde, C, Chen, P.Y, Deraniyagala, R, Petoukhova, A, Klaassen, L, Habraken, S, Jacobs, J, Sattler, M, Verhoeven, K, Klaver, Y, Widesott, L, Fracchiolla, F, Algranati, C, Scifoni, E, Scartoni, D, Farace, P, Kröniger, K, Bauer, J, Nilsson, R, Chen, X, Liu, R, Sun, B, Mutic, S, Zhang, T, Zhao, T, Kajdrowicz, T, Wochnik, A, Swakoń, J, Małecki, K, Michalec, B, Moffitt, G, Wootton, L, Hardemark, B, Sandison, G, Emery, R, Stewart, R, Reidel, C.A, Finck, C, Deisher, A, Mahajan, A, Michael, H, Ahn, S.H, Kwang Hyeon, K, Chankyu, K, Youngmoon, G, Shinhaeng, C, Se Byeong, L, Young Kyung, L, Haksoo, K, Dongho, S, Jong Hwi, J, Ali, Y, Monini, C, Maigne, L, Alshaikhi, J, D’Souza, D, Amos, R. A, Baumann, K.S, Gomà, C, Flatten, V, Lautenschläger, S, Abdel-Rehim, A, Wan Chan Tseung, H.S, Ma, J, Kamal Syed, H, Boscolo, D, Krämer, M, Fuss, M, Braunroth, T, Rabus, H, Baek, W.Y, Brown, H, Alshammari, H, Brownstein, J, Giantsoudi, D, Wang, C.C, Grassberger, C, Chen, C, Chan, M.F, Mah, D, Hojo, Y, Xu, C, Elia, A, Fung, A, Nguyen, B.N, Oyervides, M, Koska, B, Kamal Sayed, H, Kim, C, Kim, Y.J, Lee, S.B, Goh, Y, Cho, S, Jeong, J.H, Kim, H, Lim, Y.K, Koh, W.Y.C, Lew, W.S, Lee, C.L.J, Kollitz, E, Han, H, Kim, C.H, Kroll, C, Riboldi, M, Newhauser, W, Dedes, G, Fuglsang Jensen, M, Nyström, U.H, Skyt, P.S, Hoffmann, L, Sloth Møller, D, Dokic, I, Kuo, S.H, Tai, P.L, Cheng, S.W, Chong, N.S, Yeom, Y.S, Kuzmin, G, Griffin, K, Langner, U, Jung, J.W, Lee, C, Lee, C.C, Hsu, W, Chao, T.C, Liamsuwan, T, Pischom, N, Tangboonduangjit, P, Suchada, T, Zheng, D, Rutenberg, M, Dhabaan, A, Harrabi, S, MARAFINI, M, Gioscio, E, Yunsheng, D, Alphonse, G, Rodriguez Lafrasse, C, Testa, É, Morris, B, Asavaphatiboon, S, DeBlois, D, Yam, M, Sękowski, P, Skwira-Chalot, I, Matulewicz, T, Flynn, R, Verbeek, N, Smyczek, S, Brualla, L, Lei, Y, Ghavidel, B, Curran, W, Beitler, J, Yu, H.W, Jeng, S.C, Tsai, Y.C, Chiou, J.F, Yusa, K, Dai, T, Yuan, P, Shafai-Erfani, G, Shu, H.K, Pepin, M, Tryggestad, E.J, Abdel Rehim, A, Johnson, J.E, Herman, M.G, Lee, S.C, Sheu, R.J, Ödén, J, Ramos-Mendez, J, Perl, J, Faddegon, B, Alaka, B.G, Bentefour, E.H, Samuel, D, Biradar, B, Frusti, P, Den Otter, L.A, Kurz, C, Stanislawski, M, Landry, G, Meijers, A, Knopf, A.C, Dickmann, J, Wesp, P, Rit, S, Johnson, R.P, Bashkirov, V, Schulte, R.W, Hoyle, B, Johnson, R, Schulte, R, Weller, J, Cotterill, J.V, Waltham, C, Allport, P.P, Taylor, M, Rogers, J, Evans, P.M, Allinson, N.M, Henry, T, Ardenfors, O, Gudowska, I, Poludniowski, G, Dasu, A, Lai, Y, Yuncheng, Z, Yiping, S, Mingwu, J, Xun, J, Yujie, C, Meric, I, Mattingly, J, Moustafa, A, Skjerdal, K, Moteabbed, M, Harisinghani, M, Efstathiou, J.A, Lu, H.M, Kabuki, S, Mizowaki, T, Ofierzynski, R, Paysan, P, Strzelecki, A, Lucca, R, Patch, S, Mustapha, B, Santiago-Gonzalez, D, Pettersen, H.E.S, Sølie, J, Levegrün, S, Pöttgen, C, Meyer, E, Collins-Fekete, C.A, Bashkirov, V.A, Wang, Y.M, Sung, K.C, Wang, C.J, Wu, H.Y, Winter, M, Bauer, U, Hansmann, T, Naumann, J, Peters, A, Pilz, K, Troost, E, Yan, S, Greenhalgh, J, Li, S, Bortfeld, T, Flanz, J, Ytre-Hauge, K, Zhang, L, Sharp, G.C, Cascio, E.W, Flanz, J.B, Tang, J, Zhu, J, Zhang, J, Uh, J, Sarosiek, C, Ricci, J, Coutrakon, G, Ozoemelam, I, van der Graaf, E.R, Maciej, K, Zhang, N, Brandenburg, S, Dendooven, P, Niepel, K, Yohannes, I, Dietrich, O, Ertl-Wagner, B, Pappas, E, Sølie, J.R, Odland, O.H, Ghesquiere-Dierickx, L.M.H, Felix Bautista, R, Gehrke, T, Jakubek, J, Turecek, D, Martisikova, M, Malekzadeh, E, Rajabi, H, Kalantari Mahmoudabadi, F, Meschini, G, d’Arenzo, D, Comini, D, Huynh, M.T, Paganelli, C, Fontana, G, Mancin, A, Preda, L, Su, Z, Henderson, R, Nichols, C, Bryant, C, Mendenhall, W, Boyer, B, Geerebaert, Y, Gevin, O, Koumeir, C, Magniette, F, Manigot, P, Poirier, F, Servagent, N, Thiebaux, C, Verderi, M, Chen, Y.R, Anderle, K, Jeraj, R, Chuter, R, Allan, I, Patel, I, MacKay, R, Harrison, K, Hoole, A, Thomas, S, Jena, R, Liao, Z, Zhu, R.X, Freeman, M, Espy, M, Aulwes, E, Magnelind, P, Merrill, F, Neukirch, L, Sidebottom, R, Tang, Z, Tupa, D, Wilde, C, Shusharina, N, Fullerton, B, Adams, J, Sharp, G, Chan, A, Dolde, K, Naumann, P, Dávid, C, Kachelrieß, M, Saito, N, Pfaffenberger, A, Wolf, M, Lis, M, Moreau, J, Buttion, M, Molitoris, J.K, Simone-, C.B, Regele, H, Bula, C, Danuser, S, Kang, M, Lin, H, Ribeiro, C. O, Dumont, D, Terpstra, J, Knopf, A, Wagenaar, D, Kierkels, R, van der Schaaf, A, Scandurra, D, Sijtsema, M, Korevaar, E, van den Hoek, A, O’Neil, M, Chung, H, Sala, I, Ramirez, H, Guerrero, T, Mondlane, G, Butkus, M.B, Stewart, R.D, Carlson, D.J, Ingram, S, Ytre-Hauge, K. Smeland, Rørvik, E, Perales, A, Carabe, A, Baratto-Roldan, A, Kimstrand, P, Cortes-Giraldo, M, Bertolet, A, Barato-Roldan, A, Baiocco, G, Barbieri, S, Mei, Z, Fan, K, Tang, K, Wang, J, Zhu, H, Sung, W, McNamara, A, Tran, L.T, Qi, Y, Xu, X, Pei, X, Chiang, Y, Chien-Hau, C, Chung-Chi, L, Chuan-Jong, T, Tsi-Chian, C, Wang, L, Cao, J, Wang, X, Lin, E, Minami, K, Kondo, R, Khoei, S, Shirvalilou, S, Khoee, S, Jamali Raoufi, N, Karimi, M.R, Shakeri-Zadeh, A, Patera, V, Rinaldi, I, Sas-Korczynska, B, Deng, W, Karagounis, I, Huynh, K, Maity, A, Abel, E, Santa Cruz, G, Monti Hughes, A, Herrera, M, Trivillin, V, Portu, A, Garabalino, M, Schwint, A, Gonzalez, S, Saint Martin, G, Santa Cruz, I, Tamari, Y, Watanabe, T, Masunaga, S.I, Wittig, A, Nigg, D, Stecher-Rasmussen, F, Moss, R, Igawa, K, Akita, K, Akabori, K, Hattori, K.J, Arima, H, Motoyama, K, Higashi, T, Trivillin, V.A, Pozzi, E.C.C, Thorp1, S.I, Curotto1, P, Garabalino1, M.A, Itoiz, M.E, Santa Cruz, I.S, Ramos, P.S, Palmieri, M.A, Schwint, A.E, Gadan, M.A, Thorp, S.I, Curotto, P, Portu, A.M, Thorp, S, Trivillin, V. A, Schwint, A. E, Fukuo, Y, Kanemitsu, T, Fukumura, M, Kosaka, T, Hiramatsu, R, Kuroiwa, T, Miyatake, S, Kawabata, S, Kirihata, M, Goldfinger, J.A, Garabalino, M.A, Pozzi, E.C, Ramos, P, De Leo, L.N, Yu, Q, Engelbrecht, M, Sioen, S, Miles, X, Nair, S, Ndimba, R, Baeyens, A, Vandevoorde, C, Buizza, G, Meng, J, Takai, N, Ogami, M, Nakamura, S, Ohba, Y, Liu, R.F, Zhang, Q.N, Wang, X.H, Luo, H.T, Kong, Y.R, Jansen, J, Tirinato, L, Marafioti, M.G, Hanley, R, Yao, X.Q, Pagliari, F, Huang, C.Y, Wong, W.K.R, Ho, Y.W, Nam, P.H, Koryakin, S.N, Troshina, M.V, Koryakina, E.V, Potetnya, V.I, Baykuzina, R.M, Lychagin, A.A, Ulyanenko, S.E, Molinelli, S, Giuseppe, M, Tran, L, Bolst, D, James, B, Steinsberger, T, Alliger, C, Dahle, T.J, Rusten, E, Wright, P, Forsback, S, Silvoniemi, A, Minn, H, Andersson, S, Buti, G, Barragán Montero, A.M, Vasquez-Osario, E, Sabouri, P, Nkenge, K, Yi, B, Burigo, L, Greilich, S, Thomas, R, Clark, C, Lourenco, A, Oancea, C, Granja, C, Kodaira, S, Coplan, M, Graybill, J, Lutz, L, Shahi, C, Su, J.J, Thompson, A, Romano, F, Shipley, D, Hong, T.S, Labarbe, R, Wolfgang, J.A, Meyer, S, Bortfeldt, J, Lämmer, P, Schnürle, K, Peters, N, Möhler, C, Hofmann, C, Koschik, A, Bryce-Atkinson, A, Van Nugteren, J, De Rijk, G, Kirby, G, Dutoit, B, Vignati, A, Ahmadi Ganjeh, Z, Fausti, F, Giordanengo, S, Hammad Ali, O, Sacchi, R, Shakarami, Z, Cirio, R, Inoue, J, Tachibana, M, Shimizu, Y, Ochi, T, Amano, D, Miyashita, T, Cooley, J, Nyamane, S, Zwart, T, Wagner, M, Lu, M, Rosenthal, S, Hashimoto, T, Katoh, N, Tamura, H, Emert, F, Missimer, J, Eichenberger, P, Gmuer, C, Spengler, C, Kamp, F, Hofmaier, J, Reiner, M, Belka, C, Van Ooteghem, G, Dasnoy-Sumell, D, Geets, X, Chen, C.C, Galbreath, G, Shmulenson, R, Pinheiro de Almeida, I, van Elmpt, W, Vilches Freixas, G, Unipan, M, Verhaegen, F, Bosmans, G, Garcia, G, Cevallos Robalino, L, Guzman-Garcia, K, Vega-Carrillo, H.R, Gomez-Ros, J.M, Gallego, E, Hintenlang, K, Martin, M, Gupta, N, Meissner, J, Smathers, J, Ainsley, C, Yin, L, Jagt, T, Breedveld, S, van Haveren, R, Nout, R, Astreinidou, E, Staring, M, Heijmen, B, Hoogeman, M, Stokes, W, Matter, M, Nenoff, L, Toramatsu, C, Wakizaka, H, Nitta, M, Nishikido, F, Hirano, Y, Yoshida, E, Miller, J, Maris, A, Kalle, R, Franco, G, Kierkels, R.G.J, van den Hoek, J.G.M, Bijl, H.P, Dieters, M, Steenbakkers, R.J.H.M, Dejongh, F, DeJongh, E, Rykalin, V, Karonis, N, Ordonez, C, Duffin, K, Winans, J, Neph, R, Sanchez-Parcerisa, D, Lopez-Aguirre, M, Dolcet Llerena, A, Udias, J, Oxley, D, Besson, R, Meier, G, Nanz, A, Schorta, M, Fleury, E, Trnková, P, Erdal, E, Hassan, K, Beenakker, J.W, Pignol, J.P, Matysiak, W, Tian, L, Zepter, S, Winterhalter, C, Shim, S, Gouldstone, C, Trnkova, P, Vatnitsky, S, Liu, K, Li, E, Zhuangming, S, Lowenstein, J, De Wilde, O, Bossier, V, Lerot, X, Pouppez, A, Xx, X, Verburg, J, Hueso-Gonzalez, F, Ruggieri, T, Amato, C, Ghesquiere-Dierickx, L, Felix-Bautista, R, Deville, C, Barsky, A, Vapiwala, N, Mohamad, O, Tabuchi, T, Nitta, Y, Nomoto, A, Kasuya, G, Choy, H, Miyashiro, I, Bush, D, Chuong, M, Kozarek, J, Rubens, M, Larson, G, Vargas, C, Hung, S.P, Hsieh, C.E, Huang, B.S, Tsang, N.M, Smith, N, Viehman, J, Harmsen, W, Elswick, S, Boughey, J, Harless, C, Jimenez, R, Hickey, S, DePauw, N, Ho, A, Taghian, A, MacDonald, S, Meek, A, Hedrick, S, Baliga, S, Gallotto, S, Lewy, J, Patteson, B, Speroni, S, Omsberg, A, Tarbell, N, Musolino, P, Yock, T, Indelicato, D, Rotondo, R, Mailhot, R, Uezono, H, Bradfield, S, Agarwal, V, Gillies, C, Gosling, A, Casares-Magaz, O, Eskildsen, S.F, Lassen, Y, Hasle, H, Tofting-Olesen, K, Alapetite, C, Puget, S, Nauraye, C, Beccaria, K, Bolle, S, Doz, F, Sainte-Rose, C, Bouffet, E, Zerah, M, Wu, J, Qiu, X, Hua, W, Mao, Y, Frakulli, R, Kramer, P.H, Glas, M, Blase, C, Tippelt, S, Konrath, L, Gruber, N, Schallerbauer-Peter, A, Mock, U, Niyazi, M, Niemierko, A, Schapira, E, Kim, V, Oh, K.S, Hwang, W.L, Busse, P.M, Loeffler, J.S, Shih, H.A, Appel, H, Tseng, Y.D, Tsai, H, Sinesi, C, Rossi, C, Badiyan, S, Kotecha, R, Pike, L, Horick, N, Yeap, B, Franck, K, Wang, I, Loeffler, J, McKenna, M, Shih, H, Kountouri, M, Kole, A.J, Murray, F.R, Kliebsch, U, Combescure, C, iannalfi, A, Riva, G, Dougherty, J, Kruse, J, Iott, M, Brown, P, Olivier, K, Brodin, P, Kabarriti, R, Schechter, C, Kalnicki, S, Garg, M, Tomé, W, Lu, J.J, Chen, P.J, Dhanireddy, B, Severo, C, Lee, C.H, Lin, C.R, Rosier, L, Mathis, T, DeLaney, T, Lin, S, O’Meara, E, Powell, T, Hong, T, Hall, D, Liu, A, Ntentas, G, Dedeckova, K, Darby, S, Cutter, D, Zapletalova, S, Chen, Y.L, Miao, R, Lee, H, Hsiao-Ming, L, Choy, E, Cote, G, Eulitz, J, Lutz, B, Enghardt, W, Lühr, A, Mcmahon, S, Prise, K, Sung Hyun, L, Tansho, R, Mizushima, K, Warmenhoven, J.W, Hufnagl, A, Friedrich, T, Deycmar, S, Gruber, S, Dörr, W, Pruschy, M, Waissi, W, Burckel, H, Nicol, A, Noel, G, Yousef, I, Koizumi, M, Santa Cruz, G.A, González, S.J, Longhino, J, Provenzano, L, Oña, P, Rao, M, Cantarelli, M.D.L.Á, Leiras, A, Olivera, M.S, Alessandrini, P, Brollo, F, Boggio, E, Costa, H, Ventimiglia, R, Binia, S, Nievas, S.I, Langle, Y, Eijan, A.M, Colombo, L.L, Kawai, K, Nakamura, H, Natsuko, K, Masaki, H, Nakada, M, Furuse, M, Miyatake, S.I, Koivunoro, H, Kankaanranta, L, González, S, Joensuu, H, Sokol, O, Hild, S, Wiedemann, J, Köthe, A, Perry, D, Batie, M, Mascia, A, Sertorio, M, Luhr, A, Suckert, T, Müller, J, Beyreuther, E, Gotz, M, Haase, R, Schürer, M, Tillner, F, von Neubeck, C, Davis, A, Sishc, B, Saha, J, Ding, L, Story, M, Wagner, S, Kim, S.Y, Geary, S, Woodruff, T, Xu, T, Meng, Q, Gilchrist, S, Perentesis, J.P, Zheng, Y, Wells, S.I, Kong, Y, Liu, Y, Geng, Y, Knoll, M, Schwager, C, Schlegel, J, Schnölzer, M, Ding, L.H, Aroumougame, A, Chen, B, Saha, D, Pompos, A, Carter, R, Nickson, C, Thomson, J, Hill, M, Rodrigues, D, Snider, J, Sharma, A, Zakhary, M, Kara, L, Vujaskovic, Z, Dykstra, M, Best, T, Keane, F, Khandekar, M, Fintelmann, F, Willers, H, Singh, P, Eley, J, Malyapa, R, Mahmood, J, Hårdemark, B, Sandison, G.A, Wootton, L.S, Miyoaka, R.S, Laramore, G.E, Yang, P, van der Weide, H, Maduro, J, Heesters, M, Gawryszuk, A, Davila-Fajardo, R, Langendijk, H, Eckhard, M, Maxwell, A, VanNamen, K, Cashin, M, Jacovic, A, Dunn, M, kim, T, Jung, J, Kim, J, Swerdloff, S, Saunders, A, Thomas, J, Kidani, T, Okada, A, Tomida, K, Pennington, H, Xiaoqiang, L, Weigang, H, An, Q, Di, Y, Craig, S, Inga, G, Peyman, K, Xuanfeng, D, Cunningham, C, de Kock, M, Slabbert, J, Panaino, C.M, Phoenix, B, Regan, P.H, Shearman, R, Collins, S.M, Taylor, M.J, Grayson, M, Kato, K, Choi, H, Jang, J.W, Shin, W.G, Min, C.H, McMahon, S, Padilla Cabal, F, Fragoso, J.A, Resch, A.F, Katsis, A, Girdhani, S, Marshall, A, Jackson, I, Bentzen, S, Parry, R, Gantz, S, Schellhammer, S, Hoffmann, A, Delorme, R, Dos Santos, M, Salmon, R, Öden, J, Bullivant, K, Rucksdashal, R, Ferret, E, Covington, F, Rice, S, Decesaris, C, Siddiqui, O, Kowalski, E, Samanta, S, and Rothwell, B

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

13. THE RF SYSTEM FOR THE RCNP RING CYCLOTRON.

Author

Saito, T., Uraki, M., Miura, I., Kumata, Y., Touchi, Y., and Uno, K.

Subjects
CYCLOTRONS, PARTICLE accelerator design & construction, ION sources, HEAVY ions, PARTICLE acceleration, NUCLEAR energy
Published
1991

14. INJECTOR AVF CYCLOTRON AT RIKEN.

Author

Goto, A., Kohara, S., Nagase, M., Kageyama, T., Hatanaka, K., Kase, M., Yano, Y., Saito, M., Takebe, H., Ikegami, K., Nakanishi, N., Kumata, Y., and Tachikawa, T.

Subjects
CYCLOTRONS, HEAVY ions, NUCLEAR physics experiments, HARMONIC analysis (Mathematics)
Published
1991

15. Construction of the RIKEN IRC.

Author

Mitsumoto, T., Goto, A., Kase, M., Ohnishi, J., Kamigaito, O., Sakamoto, N., Ikegami, K., Okuno, H., Miyazawa, Y., Yano, Y., Hiasa, T., and Kumata, Y.

Subjects
CYCLOTRONS, NUCLEAR physics instruments
Abstract

Construction of the RIKEN Intermediate-stage Ring Cyclotron (IRC) started in 1998. Four sector magnets are completed. Magnetic field measurement of the sector magnet is in progress. Two main resonators are assembled. Fine adjustments of the resonators are going on. Almost all the other components are also completed. [ABSTRACT FROM AUTHOR]

Published
2001

16. Design of the flat-top acceleration system for the JAERI AVF cyclotron.

Author

Kurashima, S., Fukuda, M., Nakamura, Y., Nara, T., Agematsu, T., Ishibori, I., Tamura, H., Yokota, W., Okumura, S., Arakawa, K., Kumata, Y., and Fukumoto, Y.

Subjects
CYCLOTRONS, PARTICLE acceleration
Abstract

A flat-top acceleration system for the JAERI AVF cyclotron has been designed. The filth harmonic of the fundamental frequency is used to obtain uniform energy gain. To determine optimum parameters of the flat-top system, a cold model test was carded out and flat-top waveforms of the voltages were observed successfully in the whole range of the fundamental frequency. An rf power required for generating a flat-top dee voltage of 30 kV was estimated to be about 1 kW. The design of the flat-top cavity is being modified using the MAFIA code. [ABSTRACT FROM AUTHOR]

Published
2001

18. A Study on Learning Model for Social Decision Making

Author

Kumata, Y. and Kitani, S.

Abstract

Recently, various kinds of learning models have been built and discussed in different fields. It seems that they are categolized into two major groups by concept of learning. Models in one group share a common concept of learning which mainly focuses on learning process of human beings, and those in the other group employ a concept of learning so as to be useful for practical systems control. This study aims to build a learning model combining the above two concepts to deal with social decision process, which can be regarded as learning process among different interests groups. The decision system of social enviorenments functions as a control system for the social system, therefore we must look at the social decision system as a control system. The authors firstly integrate the two concepts into a new concept, and build an adaptive learning model. Secondly, we make a simulation experiment applying the model.

Published
1981
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20. Topic: Inguinal Hernia — Unsolved problem in the daily practice

Author

S. Yasuo, Y. Kenichi, N. Ueno, A. Arimoto, M. Hosono, T. Yoshikawa, A. Toyokawa, Y. Kakeji, Y. Tsai, C. Tsai, J. Sul, M. Lim, J. Park, C. E. Jang, O. Santilli, D. Tripoloni, H. Santilli, N. Nardelli, A. Greco, M. Estevez, S. Sakurai, S. Ryu, G. Cesana, F. Ciccarese, M. Uccelli, G. Grava, G. Castello, D. Carrieri, G. Legnani, S. Olmi, M. Naito, H. Yamamoto, Y. Sawada, Y. Mandai, H. Asano, H. Ino, K. Tsukuda, T. Nagahama, M. Ando, K. Ami, K. Arai, M. Miladinovic, A. Kitanovic, M. Lechner, F. Mayer, M. Meissnitzer, R. Fortsner, D. Öfner, G. Köhler, T. Jäger, Y. Kumata, R. Fukushima, T. Inaba, Y. Yaguchi, M. Horikawa, E. Ogawa, T. Katayama, P. S. Kumar, D. Unal, C. Caparlar, T. Akkaya, U. Mercan, H. Kulacoglu, J. Jorge Barreiro, I. García Baer, L. Solar García, P. Lora Cumplido, L. J. García Florez, P. Fernandez Muñiz, K. Fujino, K. Mita, E. Ohta, K. Takahashi, M. Hashimoto, K. Nagayasu, R. Murabayashi, H. Asakawa, K. Koizumi, G. Hayashi, H. Ito, F. Felberbauer, S. Strobl, I. Kristo, S. Riss, G. Prager, H. El Komy, A. El Gendi, W. Nabil, M. Karam, S. El Kayal, N. Chihara, H. Suzuki, M. Watanabe, E. Uchida, T. Chen, J. Wang, H. Wang, N. Bouchiba, T. Elbakary, A. Ramadan, M. Elakkad, C. Berney, V. Vlasov, I. Babii, O. Pidmurnyak, M. Prystupa, N. Asakage, P. Molinari, E. Contino, L. Guzzetti, M. Oggioni, M. Sambuco, M. Berselli, L. Farassino, E. Cocozza, A. Crespi, A. Ambrosoli, Y. Zhao, Yasuo, S, Kenichi, Y, Ueno, N, Arimoto, A, Hosono, M, Yoshikawa, T, Toyokawa, A, Kakeji, Y, Tsai, Y, Tsai, C, Sul, J, Lim, M, Park, J, Jang, C E, Santilli, O, Tripoloni, D, Santilli, H, Nardelli, N, Greco, A, Estevez, M, Sakurai, S, Ryu, S, Cesana, G, Ciccarese, F, Uccelli, M, Grava, G, Castello, G, Carrieri, D, Legnani, G, Olmi, S, Naito, M, Yamamoto, H, Sawada, Y, Mandai, Y, Asano, H, Ino, H, Tsukuda, K, Nagahama, T, Ando, M, Ami, K, Arai, K, Miladinovic, M, Kitanovic, A, Lechner, M, Mayer, F, Meissnitzer, M, Fortsner, R, Öfner, D, Köhler, G, Jäger, T, Kumata, Y, Fukushima, R, Inaba, T, Yaguchi, Y, Horikawa, M, Ogawa, E, Katayama, T, Kumar, P S, Unal, D, Caparlar, C, Akkaya, T, Mercan, U, Kulacoglu, H, Barreiro, J Jorge, Baer, I García, García, L Solar, Cumplido, P Lora, Florez, L J García, Muñiz, P Fernandez, Fujino, K, Mita, K, Ohta, E, Takahashi, K, Hashimoto, M, Nagayasu, K, Murabayashi, R, Asakawa, H, Koizumi, K, Hayashi, G, Ito, H, Felberbauer, F, Strobl, S, Kristo, I, Riss, S, Prager, G, El Komy, H, El Gendi, A, Nabil, W, Karam, M, El Kayal, S, Chihara, N, Suzuki, H, Watanabe, M, Uchida, E, Chen, T, Wang, J, Wang, H, Bouchiba, N, Elbakary, T, Ramadan, A, Elakkad, M, Berney, C, Vlasov, V, Babii, I, Pidmurnyak, O, Prystupa, M, Asakage, N, Molinari, P, Contino, E, Guzzetti, L, Oggioni, M, Sambuco, M, Berselli, M, Farassino, L, Cocozza, E, Crespi, A, Ambrosoli, A, and Zhao, Y

Subjects
medicine.medical_specialty, Inguinal hernia, business.industry, General surgery, Daily practice, medicine, Surgery, business, medicine.disease, Abdominal surgery
Published
2015
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21. Assessing the risk factors for surgical site infections after anal reconstruction surgery in patients with anorectal malformations: a retrospective analysis.

Author

Yokoyama S, Ishii D, Sakamura S, Kawahara I, Hashimoto S, Kumata Y, Korai T, Okumura K, Ara M, Kondo T, Ishimura R, Takahashi R, Tsuzaka S, Minato M, Ohba G, Yamamoto H, Honda S, Miyagi H, and Nui A

Subjects
Humans, Retrospective Studies, Risk Factors, Male, Female, Infant, Child, Preschool, Japan epidemiology, Child, Infant, Newborn, Anorectal Malformations surgery, Surgical Wound Infection epidemiology, Plastic Surgery Procedures methods, Anal Canal surgery, Anal Canal abnormalities
Abstract

Purpose: This study aimed to identify surgical site infection (SSI) risk factors after anal reconstruction surgery in patients with anorectal malformations (ARMs)., Methods: This retrospective analysis from January 2013 to December 2022, including all pediatric surgical facilities in Hokkaido, Japan, examined consecutive patients with ARMs, excluding cloacal cases, regarding perioperative and SSI factors during their initial anal reconstruction surgeries., Results: This study involved 157 cases of major clinical groups and 7 cases of rare/regional variants, among whom 4% developed SSIs. SSIs occurrence varied by type and was primarily observed from the neo-anus to the perineal region. Organ/space SSIs occurred in rectourethral fistula (prostatic/bulbar) and perineal (cutaneous) fistula type. Surgical procedures were abdominal sacroperineal rectoplasty, posterior sagittal anorectoplasty, laparoscopic-assisted anorectal pull-through, cutback anoplasty, and Pott's anoplasty, varied based on the ARM type and facility. In perineal (cutaneous) fistula, vestibular fistula, and anal stenosis cases, a significant association was observed between perianal muscle division and SSIs in patients aged > 4 months (p = 0.04). No significant SSI factors were found in other ARM types., Conclusion: The choice of procedure as an interventional perioperative factor is suggested to be associated with SSIs. These findings may contribute to making informed decisions regarding surgical procedures in such cases., Competing Interests: Declarations. Conflict of interest: The authors declare no competing interests. Ethical approval: Ethical approval was obtained from the Institutional Review Board of all the participating facilities (IRB approval no. 24–39, 179, 023–0019, 23025), and the study was performed in accordance with the tenets of the Declaration of Helsinki. Informed consent: All study participants provided informed consent via an opt-out method., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2024
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22. Pembrolizumab plus cisplatin and fluorouracil as induction chemotherapy followed by definitive chemoradiotherapy for patients with cT4 and/or supraclavicular lymph node metastasis (M1Lym) of esophageal squamous cell carcinoma.

Author

Hokamura N, Fukagawa T, Fukushima R, Kiyokawa T, Horikawa M, Kumata Y, Suzuki Y, and Midorikawa H

Subjects
Humans, Induction Chemotherapy methods, Lymphatic Metastasis therapy, Neoplasm Staging, Survival Rate, Antibodies, Monoclonal, Humanized therapeutic use, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Chemoradiotherapy methods, Cisplatin therapeutic use, Esophageal Neoplasms mortality, Esophageal Neoplasms pathology, Esophageal Neoplasms therapy, Esophageal Squamous Cell Carcinoma mortality, Esophageal Squamous Cell Carcinoma pathology, Esophageal Squamous Cell Carcinoma therapy, Fluorouracil therapeutic use
Abstract

Definitive chemoradiotherapy (DCRT) is administered as standard treatment for patients with cT4 and/or M1Lym esophageal squamous cell carcinoma (ESCC); however, its long-term result is inadequate. Although several studies have reported that conversion surgery can improve the survival of these patients, none have identified significantly better long-term survival than that achieved by DCRT. Thus, enhancing DCRT seems important to improve the survival of these patients. A strategy of shrinking tumor volume before DCRT and providing consolidation chemotherapy for systemic control is expected to improve the survival of these patients. Pembrolizumab plus cisplatin and fluorouracil has demonstrated good local control and significant improvement in the survival of patients with advanced esophageal cancer. Based on these results, the following strategy is proposed: This protocol should be applied as induction for these patients; then, DCRT should be provided depending on the initial response; and finally, adjuvant chemotherapy with an immune checkpoint inhibitor should be given to all responders., (© 2024. The Author(s).)

Published
2024
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23. A case series of prophylactic negative pressure wound therapy use with purse-string closure in stoma closure wounds in infants.

Author

Kumata Y, Ishii D, Ishii S, Motoki K, Ueno N, Hinooka R, and Miyagi H

Abstract

Background: The study introduces the application of negative pressure wound therapy (NPWT) in pediatric stoma closure, emphasizing the importance of enhancing aesthetics and minimizing surgical site infections (SSI)., Case Presentation: The case series involves four infants undergoing non-umbilical stoma closure with a combination of purse-string closure (PSC) and NPWT, focusing on aesthetic outcomes and infection prevention. NPWT was initiated immediately after surgery, and patients were monitored every 3-4 days. Notably, none of the four infants experienced SSI or other complications. The patients adequately tolerated NPWT, with no significant adverse events. Furthermore, Manchester Scar Scale (MSS) was 9 [7-10], and Patient and Observer Scar Assessment Scale (POSAS) (observer) was 12.5 [12-19], POSAS (patient) was 12.5 [11-16] (all median values [minimum-maximum]), indicating that excellent aesthetic outcomes were achieved., Discussion: We emphasizes the significance of aesthetics in pediatric patients; in addition, our findings demonstrate that four infants who received NPWT combined with PSC achieved superior outcomes that did the most recent four infants who underwent PSC only at our institution. It also addresses the risk of SSI in stoma closure and discusses the pros and potential cons of using NPWT in pediatric cases, underlining the need for further research and the accumulation of additional reports., Conclusions: This is the inaugural report of prophylactic NPWT for pediatric stoma closure, emphasizing the effectiveness of combining PSC and NPWT for SSI prevention and improved aesthetics. The study calls for additional research and reports on NPWT in pediatric cases to further solidify its benefits in this patient population., (© 2024. The Author(s).)

Published
2024
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24. A Gelatin Hydrogel Nonwoven Fabric Combined With Adipose Tissue-Derived Stem Cells Enhances Subcutaneous Islet Engraftment.

Author

Saito R, Inagaki A, Nakamura Y, Imura T, Kanai N, Mitsugashira H, Endo Kumata Y, Katano T, Suzuki S, Tokodai K, Kamei T, Unno M, Watanabe K, Tabata Y, and Goto M

Subjects
Animals, Mice, Male, Diabetes Mellitus, Experimental therapy, Stem Cells cytology, Stem Cells metabolism, Islets of Langerhans cytology, Blood Glucose metabolism, Mice, Inbred C57BL, Islets of Langerhans Transplantation methods, Adipose Tissue cytology, Gelatin chemistry, Hydrogels chemistry
Abstract

Subcutaneous islet transplantation is a promising treatment for severe diabetes; however, poor engraftment hinders its prevalence. We previously revealed that a gelatin hydrogel nonwoven fabric (GHNF) markedly improved subcutaneous islet engraftment. We herein investigated whether the addition of adipose tissue-derived stem cells (ADSCs) to GHNF affected the outcome. A silicone spacer sandwiched between two GHNFs with (AG group) or without (GHNF group) ADSCs, or a silicone spacer alone (Silicone group) was implanted into the subcutaneous space of healthy mice at 6 weeks before transplantation, then diabetes was induced 7 days before transplantation. Syngeneic islets were transplanted into the pretreated space. Intraportal transplantation (IPO group) was also performed to compare the transplant efficiency. Blood glucose, intraperitoneal glucose tolerance, immunohistochemistry, and inflammatory mediators were evaluated. The results in the subcutaneous transplantation were compared using the Silicone group as a control. The results of the IPO group were also compared with those of the AG group. The AG group showed significantly better blood glucose changes than the Silicone and the IPO groups. The cure rate of AG group (72.7%) was the highest among the groups (GHNF; 40.0%, IPO; 40.0%, Silicone; 0%). The number of vWF-positive vessels in the subcutaneous space of the AG group was significantly higher than that in other groups before transplantation ( P < 0.01). Lectin angiography also showed that the same results ( P < 0.05). According to the results of the ADSCs tracing, ADSCs did not exist at the transplant site (6 weeks after implantation). The positive rates for laminin and collagen III constructed around the transplanted islets did not differ among groups. Inflammatory mediators were higher in the Silicone group, followed by the AG and GHNF groups. Pretreatment using bioabsorbable scaffolds combined with ADSCs enhanced neovascularization in subcutaneous space, and subcutaneous islet transplantation using GHNF with ADSCs was superior to intraportal islet transplantation., Competing Interests: Declaration of Conflicting InterestsThe author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: The authors declare no conflicts of interest in association with the present study, although this study was performed according to the patent application agreement with KYOTO MEDICAL PLANNING Co., Ltd.

Published
2024
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25. A Gelatin Hydrogel Nonwoven Fabric Enhances Subcutaneous Islet Engraftment in Rats.

Author

Saito R, Inagaki A, Nakamura Y, Imura T, Kanai N, Mitsugashira H, Endo Kumata Y, Katano T, Suzuki S, Tokodai K, Kamei T, Unno M, Watanabe K, Tabata Y, and Goto M

Subjects
Rats, Mice, Animals, Blood Glucose, Disease Models, Animal, Neovascularization, Pathologic, Silicones pharmacology, Gelatin pharmacology, Hydrogels pharmacology
Abstract

Although subcutaneous islet transplantation has many advantages, the subcutaneous space is poor in vessels and transplant efficiency is still low in animal models, except in mice. Subcutaneous islet transplantation using a two-step approach has been proposed, in which a favorable cavity is first prepared using various materials, followed by islet transplantation into the preformed cavity. We previously reported the efficacy of pretreatment using gelatin hydrogel nonwoven fabric (GHNF), and the length of the pretreatment period influenced the results in a mouse model. We investigated whether the preimplantation of GHNF could improve the subcutaneous islet transplantation outcomes in a rat model. GHNF sheets sandwiching a silicone spacer (GHNF group) and silicone spacers without GHNF sheets (control group) were implanted into the subcutaneous space of recipients three weeks before islet transplantation, and diabetes was induced seven days before islet transplantation. Syngeneic islets were transplanted into the space where the silicone spacer was removed. Blood glucose levels, glucose tolerance, immunohistochemistry, and neovascularization were evaluated. The GHNF group showed significantly better blood glucose changes than the control group ( p < 0.01). The cure rate was significantly higher in the GHNF group ( p < 0.05). The number of vWF-positive vessels was significantly higher in the GHNF group ( p < 0.01), and lectin angiography showed the same tendency ( p < 0.05). The expression of laminin and collagen III around the transplanted islets was also higher in the GHNF group ( p < 0.01). GHNF pretreatment was effective in a rat model, and the main mechanisms might be neovascularization and compensation of the extracellular matrices.

Published
2023
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26. Quantitative evaluation of pediatric umbilical loop stomas: 2 decades of experience from a single institution.

Author

Ishii D, Kumata Y, Ishii S, Motoki K, and Miyagi H

Subjects
Humans, Child, Patient Selection, Cicatrix, Surgical Stomas
Abstract

Purpose: Since pediatric stomas are often temporary, their creation, management, and closure should be simple, with minimal complications and excellent cosmetic results. We began employing umbilical stomas in 2000. This study aimed to characterize the ingenuity and utility of umbilical stomas and provide a quantitative evaluation of their cosmetic outcomes., Methods: We examined cases of stoma construction and closure surgery performed in our department from January 2000 to December 2022. The umbilical and non-umbilical stoma groups included 54 and 42 cases, respectively, and the findings for both groups were compared and analyzed., Results: The two groups showed no significant differences in the incidence of complications. The Manchester Scar Scale score for the umbilical stoma group (8.42 ± 1.85) was significantly better than that for the non-umbilical stoma group (16.31 ± 2.96; P < 0.01). Likewise, in Patient and Observer Scar Assessment Scale assessments, the umbilical stoma group showed significantly better scores in both the observer scale (9.48 ± 2.50 vs. 21.78 ± 7.26; P < 0.01) and the patient scale (10.5 ± 1.39 vs. 22.40 ± 7.35; P < 0.01)., Conclusions: Umbilical stomas are easy to manage and yield an inconspicuous closure incision with excellent cosmetic outcomes. Although patient selection is important, pediatric umbilical stomas are a valuable option that can be actively employed., (© 2023. The Author(s).)

Published
2023
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27. Accuracy of preoperative staging of gastric stump cancer.

Author

Kiyokawa T, Fukagawa T, Kaneshiro S, Igarashi Y, Soeda N, Kumata Y, Horikawa M, Sasajima Y, Matsuda K, and Fukushima R

Subjects
Gastrectomy, Humans, Neoplasm Staging, Retrospective Studies, Sensitivity and Specificity, Gastric Stump diagnostic imaging, Gastric Stump pathology, Gastric Stump surgery, Stomach Neoplasms diagnostic imaging, Stomach Neoplasms surgery
Abstract

Background: In this study, the accuracy of preoperative staging for gastric stump cancer, which has not been thoroughly investigated since the condition is rare, was investigated using computed tomography and gastroscopic imaging., Methods: Between February 1994 and April 2018, 49 patients with gastric stump cancer, following subtotal or total gastrectomy, were reviewed retrospectively. Preoperative diagnoses of clinical T and clinical N categories were compared with post-operative pathological diagnoses (pT and pN categories). Positive predictive values, accuracy, sensitivity and specificity were also evaluated., Results: The overall accuracy of T staging was 40.8%. The positive predictive value for cT3/T4 was 96.3%, whereas the positive predictive value for cT1/T2 was 72.7%. The overall accuracy for N staging was 61.2%. The positive predictive value of lymph node positive patients was 73.3%. The positive predictive value and sensitivity of over stage II were 96.6% and 84.8%, respectively., Conclusions: The accuracy of preoperative diagnosis using both computed tomography and gastroscopy imaging may be feasible for T3/T4 advanced gastric stump cancer, whereas diagnosing T1/2 gastric stump cancer must be carefully considered due to high misdiagnosis rates, relating to depth., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2022
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28. Improvement of lactic acid tolerance by cocktail δ-integration strategy and identification of the transcription factor PDR3 responsible for lactic acid tolerance in yeast Saccharomyces cerevisiae.

Author

Yamada R, Kumata Y, Mitsui R, Matsumoto T, and Ogino H

Subjects
Drug Resistance, Microbial genetics, Gene Expression Regulation, Fungal, Transcription Factors genetics, DNA-Binding Proteins metabolism, Drug Tolerance physiology, Lactic Acid metabolism, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins metabolism, Transcription Factors metabolism
Abstract

Although, yeast Saccharomyces cerevisiae is expected to be used as a host for lactic acid production, improvement of yeast lactic acid tolerance is required for efficient non-neutralizing fermentation. In this study, we optimized the expression levels of various transcription factors to improve the lactic acid tolerance of yeast by a previously developed cocktail δ-integration strategy. By optimizing the expression levels of various transcription factors, the maximum D-lactic acid production and yield under non-neutralizing conditions were improved by 1.2. and 1.6 times, respectively. Furthermore, overexpression of PDR3, which is known as a transcription factor involved in multi-drug resistance, effectively improved lactic acid tolerance in yeast. In addition, we clarified for the first time that high expression of PDR3 contributes to the improvement of lactic acid tolerance. PDR3 is considered to be an excellent target gene for studies on yeast stress tolerance and further researches are desired in the future.

Published
2021
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29. Usefulness of laparoscopic posterior rectopexy for complete rectal prolapse: A cohort study.

Author

Hashida H, Sato M, Kumata Y, Mizumoto M, Kondo M, Kobayashi H, Yamamoto T, Terajima H, and Kaihara S

Subjects
Adult, Aged, Aged, 80 and over, Cohort Studies, Fecal Incontinence etiology, Female, Humans, Male, Middle Aged, Rectum surgery, Digestive System Surgical Procedures methods, Laparoscopy methods, Rectal Prolapse surgery
Abstract

Background: Transabdominal rectopexy for complete rectal prolapse reportedly yields more definitive results than transperineal surgery. Recently, minimally invasive laparoscopic rectopexy has become a popular treatment option for patients with rectal prolapse. Herein, we describe our surgical procedure for correction of rectal prolapse. We further aimed to perform a comparative assessment between perioperative outcomes achieved with open and laparoscopic applications of this technique., Materials and Methods: In this cohort study, 65 patients underwent posterior rectopexy (laparoscopic, 50; open, 15) between April 2008 and December 2015. The basic procedure consisted of posterior rectopexy using mesh fixation (modified Wells' method). We assessed and compared perioperative outcomes (duration of surgery and hospitalization, complication rates, blood-loss, degree of fecal incontinence) of laparoscopic and open rectopexy. Furthermore, pre- and post-operative urinary incontinence was measured (using pad test, questionnaire) and compared to determine the effects of the procedure on pelvic organ function. A p-value <0.05 indicated statistical significance., Results: The mean operative time of the laparoscopic and open procedures was 127 and 83.6 min, respectively. The amount of blood-loss was negligible and 77 (range, 18-200) g with the laparoscopic and open approaches, respectively. The mean duration of hospitalization was 4.2 and 7.2 days for the former and latter procedures, respectively (p < 0.05). Rectal prolapse and fecal incontinence (evaluated using Wexner's score) diminished in all patients. Urinary incontinence also decreased postoperatively. There were no recurrences of rectal prolapse., Conclusion: Laparoscopic rectopexy can be safely performed in older patients to achieve early postoperative ambulation and significantly shorten the hospital-stay. It may therefore be considered an effective treatment for complete rectal prolapse and urinary dysfunction., (Copyright © 2019 IJS Publishing Group Ltd. Published by Elsevier Ltd. All rights reserved.)

Published
2019
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30. Plasma exosome-encapsulated microRNA-21 and microRNA-92a are promising biomarkers for the prediction of peritoneal recurrence in patients with gastric cancer.

Author

Soeda N, Iinuma H, Suzuki Y, Tsukahara D, Midorikawa H, Igarashi Y, Kumata Y, Horikawa M, Kiyokawa T, Fukagawa T, and Fukushima R

Abstract

In patients with gastric cancer (GC), peritoneal recurrence is a common risk and associated with poor prognosis. A novel biomarker for the prediction of high-risk peritoneal recurrence in patients with GC is desirable. The present study investigated the effectiveness of exosome-encapsulated microRNAs (ex-miRNAs) as minimally invasive biomarkers in patients with GC that received curative surgery. Recurrence-specific ex-miRNAs were selected following comparison of miRNA microarray data from patients with TNM stage II GC with peritoneal recurrence (n=3) and without peritoneal recurrence following curative surgery (n=3), and three healthy volunteers. In this analysis, exosome-encapsulated miRNA-21 (ex-miR-21) and exosomal miR-92a (ex-miR-92a) exhibited the greatest alterations in expression patterns. Using plasma exosome samples collected from another 129 patients with stage II and III GC, the present study investigated the potential value of ex-miR-21 and ex-miR-92a as biomarkers. Ex-miRNA levels were measured using TaqMan miRNA assays. Ex-miR-21 levels were significantly higher and ex-miR-92a levels were significantly lower in samples from patients with GC compared with healthy controls. The overall survival (OS) and peritoneal recurrence-free survival (PRFS) were poorer in stage II and III patients with high ex-miR-21 levels than in patients with low miR-21 levels. OS and PRFS of stage II and III patients with low ex-miR92a levels were significantly worse than those with high ex-miR92a levels. Cox multivariate analyses indicated that ex-miR-21 and ex-miR-92a were independent prognostic factors for OS and PRFS in stage II and III GC. A negative correlation was detected between expression levels of miR-21 and programmed cell death protein 4 mRNA, and miR-92a and prostaglandin E receptor 4 mRNA. Therefore, ex-miR-21 and ex-miR-92a may function as effective and minimally invasive biomarkers for the prediction of peritoneal recurrence and the prognosis of patients with stage II/III GC., (Copyright: © Soeda et al.)

Published
2019
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31. Modulation of gene expression by cocktail δ-integration to improve carotenoid production in Saccharomyces cerevisiae.

Author

Yamada R, Yamauchi A, Ando Y, Kumata Y, and Ogino H

Subjects
Gene Expression, Saccharomyces cerevisiae metabolism, beta Carotene, Carotenoids biosynthesis, Gene Expression Regulation, Fungal, Saccharomyces cerevisiae genetics
Abstract

Carotenoids, including β-carotene, are commercially valuable compounds, and their production by engineered Saccharomyces cerevisiae is a promising strategy for their industrial production. Here, to improve β-carotene productivity in engineered S. cerevisiae, a cocktail δ-integration strategy, which involves simultaneous integration of various multi-copy genes, followed by selection of desirable transformants, was applied for modulation of β-carotene production-related genes expression. The engineered strain, YPH499/Mo3Crt79, was constructed by three repeated rounds of cocktail δ-integration using CrtE, CrtYB, and CrtI derived from the yeast, Xanthophyllomyces dendrorhous. The recombinant strain produced 7.3 mg/L of carotenoids in 48 h and 52.3 mg/L of β-carotene in 96 h, which were greater values than those achieved by CrtE, CrtYB, and CrtI co-overexpressing strains. Therefore, repeated cocktail δ-integration was effective in improving carotenoid productivity in S. cerevisiae and could be a promising technique for constructing metabolically engineered S. cerevisiae capable of producing bio-based chemicals., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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32. Exosome‑encapsulated microRNA‑23b as a minimally invasive liquid biomarker for the prediction of recurrence and prognosis of gastric cancer patients in each tumor stage.

Author

Kumata Y, Iinuma H, Suzuki Y, Tsukahara D, Midorikawa H, Igarashi Y, Soeda N, Kiyokawa T, Horikawa M, and Fukushima R

Subjects
Aged, Disease-Free Survival, Exosomes genetics, Female, Gene Expression Regulation, Neoplastic, Humans, Male, Middle Aged, Neoplasm Staging, Stomach Neoplasms pathology, Biomarkers, Tumor genetics, MicroRNAs genetics, Prognosis, Stomach Neoplasms genetics
Abstract

Recently, exosome‑encapsulated microRNAs (miRNAs) have been attracting attention as stable and minimally invasive biomarkers in cancer patients. The aim of the present study was to clarify the value of plasma exosomal microRNA‑23b (miR‑23b) as a diagnostic and prognostic biomarker in gastric cancer (GC) patients at each tumor stage. We first selected recurrence specific exosomal miRNA by miRNA microarray from 6 GC patients (stage I) with or without recurrence, and 3 healthy volunteers. In this analysis, miR‑23b demonstrated the most significant change. Subsequently, we validated the usefulness of miR‑23b as a biomarker using the plasma exosome samples collected from 232 GC patients and 20 healthy volunteers. miR‑23b levels were evaluated by Taqman microRNA assays. Exosomal miR‑23b levels of GC patients were significantly lower than those of the healthy controls. A significant association was revealed between the plasma exosomal miR‑23b levels and the expression of miR‑23b in primary tumor tissues. Concerning the pathological condition, miR‑23b demonstrated a significant association with tumor size, depth of invasion, liver metastasis and TNM stage. The overall survival (OS) rates of low‑miR‑23b patients were significantly worse than those of high‑miR‑23b patients at stage I, II, III and IV. The disease‑free survival (DFS) rates of low exosomal miR‑23b patients were significantly worse than those of high‑miR‑23b patients at stage I, II and III. Cox multivariate analysis indicated that exosomal miR‑23b was an independent prognostic factor for OS and DFS at each tumor stage. Our results revealed that exosomal miR‑23b has potential as minimally invasive predictive biomarker for the recurrence and prognosis of GC in patients at all stages.

Published
2018
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33. Two cases of early recurrence after transabdominal preperitoneal inguinal hernia repair.

Author

Yaguchi Y, Inaba T, Kumata Y, Horikawa M, Kiyokawa T, and Fukushima R

Subjects
Aged, Follow-Up Studies, Hernia, Inguinal diagnosis, Herniorrhaphy adverse effects, Humans, Laparotomy methods, Male, Recurrence, Retroperitoneal Space surgery, Risk Assessment, Severity of Illness Index, Time Factors, Treatment Outcome, Hernia, Inguinal surgery, Herniorrhaphy methods, Reoperation methods, Surgical Mesh
Abstract

We performed transabdominal preperitoneal inguinal hernia repair in 46 patients (58 diseases), two of whom experienced early recurrence after mesh repair. Case 1 was a 76-year-old man with a bilateral inguinal hernia (recurrence site, left indirect hernia) after appendectomy. The recurrence occurred 1 month after transabdominal preperitoneal inguinal hernia repair. The mesh was dislocated to the lateral side, and we repaired it using the direct Kugel® patch with an anterior technique. Case 2 was a 79-year-old man with a bilateral inguinal hernia (recurrence site, right direct hernia with an orifice >3 cm) after appendectomy. The recurrence occurred 3 months after transabdominal preperitoneal inguinal hernia repair. The mesh was dislocated to the lateral side, and we repaired it using an ULTRAPRO® Plug with an anterior technique under laparoscopic observation. We believe the recurrences resulted from insufficient internal exfoliation and fixation affected by complicated exfoliation of the preperitoneal space with omental adhesion after intraperitoneal surgery., (© 2017 Japan Society for Endoscopic Surgery, Asia Endosurgery Task Force and John Wiley & Sons Australia, Ltd.)

Published
2018
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34. Maternal Nanos-Dependent RNA Stabilization in the Primordial Germ Cells of Drosophila Embryos.

Author

Sugimori S, Kumata Y, and Kobayashi S

Subjects
3' Untranslated Regions, Animals, Drosophila Proteins genetics, Drosophila melanogaster physiology, Embryo, Nonmammalian cytology, Embryo, Nonmammalian physiology, Female, Gene Expression Regulation, Developmental, Germ Cells cytology, Male, Maternal Inheritance, RNA, Messenger genetics, RNA-Binding Proteins genetics, Drosophila Proteins metabolism, Drosophila melanogaster embryology, Drosophila melanogaster genetics, Germ Cells physiology, Protein Biosynthesis, RNA Stability, RNA-Binding Proteins metabolism
Abstract

Nanos (Nos) is an evolutionary conserved protein expressed in the germline of various animal species. In Drosophila, maternal Nos protein is essential for germline development. In the germline progenitors, or the primordial germ cells (PGCs), Nos binds to the 3' UTR of target mRNAs to repress their translation. In contrast to this prevailing role of Nos, here we report that the 3' UTR of CG32425 mRNA mediates Nos-dependent RNA stabilization in PGCs. We found that the level of mRNA expressed from a reporter gene fused to the CG32425 3' UTR was significantly reduced in PGCs lacking maternal Nos (nos PGCs) as compared with normal PGCs. By deleting the CG32425 3' UTR, we identified the region required for mRNA stabilization, which includes Nos-binding sites. In normal embryos, CG32425 mRNA was maternally supplied into PGCs and remained in this cell type during embryogenesis. However, as expected from our reporter assay, the levels of CG32425 mRNA and its protein product expressed in nos PGCs were lower than in normal PGCs. Thus, we propose that Nos protein has dual functions in translational repression and stabilization of specific RNAs to ensure proper germline development., (© 2017 Japanese Society of Developmental Biologists.)

Published
2018
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35. Seven esophageal perforation cases after aortic replacement/stenting for thoracic aortic dissection or aneurysm.

Author

Yaguchi Y, Kumata Y, Horikawa M, Kiyokawa T, Inaba T, and Fukushima R

Abstract

Background: Esophageal perforation after aortic replacement/stenting for aortic dissection or aneurysm is a rare but severe complication. However, its cause, standard treatment, and prognosis are unclear. We analyzed the treatment and outcome retrospectively from seven cases experienced at our hospital., Case Presentation: The median age of the patients was 70 years (range, 41-86), and six of the seven cases were male. As the first treatment, aortic replacement techniques were performed in five, and thoracic endovascular aortic repair (TEVAR) procedure was performed in two. We evaluated the treatment of the perforation, the cause of death, and the median survival time after reparative surgery (esophagectomy). Initial treatment of the perforation was esophagectomy without reconstruction in six and esophagogastric bypass (later, esophagectomy was performed) in one. Three of seven cases could be discharged from hospital or moved to another hospital, but two of these three cases died of major bleeding on postoperative days 320 and 645. The other four esophagectomy cases died in hospital because of sepsis on postoperative days 14, 30, and 41 and major bleeding on postoperative day 54. The one surviving case was a 65-year-old man who underwent reconstruction, and was still alive without signs of infection at 424 days postoperatively., Conclusion: The prognosis of esophageal perforation cases after aortic replacement/stenting for thoracic aortic dissection or aneurysm is poor, though there were some cases with relatively long survival. Therefore, the indication for invasive esophagectomy should be decided carefully. Control of infection including regional infection is essential for successful treatment.

Published
2017
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36. Clinical Significance of Area of Psoas Major Muscle on Computed Tomography after Gastrectomy in Gastric Cancer Patients.

Author

Yaguchi Y, Kumata Y, Horikawa M, Kiyokawa T, Iinuma H, Inaba T, and Fukushima R

Subjects
Aged, Disease Progression, Female, Humans, Male, Middle Aged, Neoplasm Recurrence, Local, Postoperative Period, Sarcopenia etiology, Stomach Neoplasms complications, Survival Analysis, Tomography, X-Ray Computed, Gastrectomy, Psoas Muscles diagnostic imaging, Sarcopenia diagnosis, Stomach Neoplasms diagnosis
Abstract

Background: The measurement of a single abdominal image on computed tomography (CT) can provide an estimate of the total body skeletal muscle. We evaluate the change of the area of the psoas major muscle (PMMA) in a CT which was performed routinely after gastrectomy in gastric cancer., Methods: A total of 119 gastric cancer patients who underwent gastrectomy were enrolled for the study. A CT image at the top of the iliac crest level was obtained at the following times: 3 postoperative months (POM), 6 POM, 1 postoperative year (POY), 2 POY, 3 POY, and 5 POY. We analyzed the change rate of PMMA after gastrectomy and before or after recurrence., Results: PMMA change after gastrectomy was approximately between -8 and -10% over the 5-year observation period. PMMA in the R2 (macroscopic residual tumor)/recurrence group was lower than that in the no recurrence group, and a significant difference was observed at 2 POY (-21.7 ± 3.6% vs. -7.9 ± 2.3%, p < 0.01). PMMA after freshly diagnosed recurrence had decreased significantly by 14.1 ± 1.8% (p < 0.01)., Conclusions: Evaluation of PMMA change by CT after gastrectomy could assist in the diagnosis of the progression of cancer state in gastric cancer patients., (© 2017 S. Karger AG, Basel.)

Published
2017
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37. Ghrelin stimulates corticotropin-releasing factor and vasopressin gene expression in rat hypothalamic 4B cells.

Author

Kageyama K, Kumata Y, Akimoto K, Takayasu S, Tamasawa N, and Suda T

Subjects
Animals, Cells, Cultured, Cyclic AMP metabolism, Cyclic AMP-Dependent Protein Kinases metabolism, Cyclic GMP metabolism, Gene Expression drug effects, Hypothalamus metabolism, Paraventricular Hypothalamic Nucleus cytology, Paraventricular Hypothalamic Nucleus drug effects, Paraventricular Hypothalamic Nucleus metabolism, Promoter Regions, Genetic drug effects, Protein Kinase Inhibitors pharmacology, RNA, Messenger metabolism, Rats, Type C Phospholipases metabolism, Arginine Vasopressin biosynthesis, Corticotropin-Releasing Hormone biosynthesis, Ghrelin pharmacology
Abstract

Corticotropin-releasing factor (CRF) and arginine vasopressin (AVP) play a central role in regulating the stress response. In response to stress, CRF and AVP neurons in the hypothalamic paraventricular nucleus secrete the peptides to stimulate the release of adrenocorticotropic hormone from the anterior pituitary. Ghrelin, an endogenous ligand of the growth hormone-releasing peptide receptors (GHSR), has been shown to stimulate the release of CRF and AVP by rat hypothalamic explants. However, little is known about the ability of the ghrelin signaling pathways to activate the CRF and AVP genes in the hypothalamus. In the present study, we examined the direct effect of ghrelin on CRF and AVP gene expression in hypothalamic 4B cells, which show the characteristics of the hypothalamic parvocellular paraventricular nucleus neurons. Cells were transfected with CRF or AVP promoter to examine the activity of each promoter. Ghrelin stimulated the promoter activities and mRNA levels for both CRF and AVP. The involvement of a protein kinase pathway was examined using inhibitors. Protein kinase A and phospholipase C pathways were shown to be involved in ghrelin-induced increases in both CRF and AVP promoter activities. GHSR type 1a (GHSR1a) mRNA levels were also increased by ghrelin, and these ghrelin-induced levels were suppressed by a GHSR1a antagonist. Thus, ghrelin-dependent pathways are involved in the regulation of CRF and AVP gene expression in the hypothalamus: ghrelin, an orexigenic hormone, stimulates CRF, an anorexigenic/anxiogenic factor in the hypothalamus, resulting in hypothalamic-pituitary-adrenal axis activation to stimulate the release of glucocorticoids.

Published
2011
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38. Deregulated Cdc6 inhibits DNA replication and suppresses Cdc7-mediated phosphorylation of Mcm2-7 complex.

Author

Kundu LR, Kumata Y, Kakusho N, Watanabe S, Furukohri A, Waga S, Seki M, Masai H, Enomoto T, and Tada S

Subjects
Animals, Ataxia Telangiectasia Mutated Proteins, Cell Cycle Proteins metabolism, Chromatin enzymology, Cyclin-Dependent Kinase 2 metabolism, DNA-Binding Proteins metabolism, Humans, Mice, Minichromosome Maintenance Complex Component 2, Minichromosome Maintenance Complex Component 4, Minichromosome Maintenance Complex Component 6, Minichromosome Maintenance Complex Component 7, Nuclear Proteins metabolism, Origin Recognition Complex metabolism, Ovum enzymology, Phosphorylation, Protein Serine-Threonine Kinases metabolism, Tumor Suppressor Proteins metabolism, Xenopus laevis, Cell Cycle Proteins antagonists & inhibitors, Chromosomal Proteins, Non-Histone metabolism, DNA Helicases metabolism, DNA Replication, Protein Serine-Threonine Kinases antagonists & inhibitors, Xenopus Proteins metabolism
Abstract

Mcm2-7 is recruited to eukaryotic origins of DNA replication by origin recognition complex, Cdc6 and Cdt1 thereby licensing the origins. Cdc6 is essential for origin licensing during DNA replication and is readily destabilized from chromatin after Mcm2-7 loading. Here, we show that after origin licensing, deregulation of Cdc6 suppresses DNA replication in Xenopus egg extracts without the involvement of ATM/ATR-dependent checkpoint pathways. DNA replication is arrested specifically after chromatin binding of Cdc7, but before Cdk2-dependent pathways and deregulating Cdc6 after this step does not impair activation of origin firing or elongation. Detailed analyses revealed that Cdc6 deregulation leads to strong suppression of Cdc7-mediated hyperphosphorylation of Mcm4 and subsequent chromatin loading of Cdc45, Sld5 and DNA polymerase α. Mcm2 phosphorylation is also repressed although to a lesser extent. Remarkably, Cdc6 itself does not directly inhibit Cdc7 kinase activity towards Mcm2-4-6-7 in purified systems, rather modulates Mcm2-7 phosphorylation on chromatin context. Taken together, we propose that Cdc6 on chromatin acts as a modulator of Cdc7-mediated phosphorylation of Mcm2-7, and thus destabilization of Cdc6 from chromatin after licensing is a key event ensuring proper transition to the initiation of DNA replication.

Published
2010
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39. Possible involvement of RecQL4 in the repair of double-strand DNA breaks in Xenopus egg extracts.

Author

Kumata Y, Tada S, Yamanada Y, Tsuyama T, Kobayashi T, Dong YP, Ikegami K, Murofushi H, Seki M, and Enomoto T

Subjects
Androstadienes pharmacology, Animals, Caffeine pharmacology, Chromatin metabolism, Chromatin Immunoprecipitation, Deoxyribonuclease EcoRI metabolism, Histones metabolism, Humans, Ovum drug effects, Protein Transport drug effects, Rad51 Recombinase metabolism, Replication Protein A deficiency, Time Factors, Wortmannin, Xenopus Proteins metabolism, Cell Extracts, DNA Breaks, Double-Stranded drug effects, DNA Repair drug effects, Ovum enzymology, RecQ Helicases metabolism, Xenopus metabolism
Abstract

Mutations in RecQL4 are a causative factor in Rothmund-Thomson syndrome, a human autosomal recessive disorder characterized by premature aging. To study the role of RecQL4, we employed a cell-free experimental system consisting of Xenopus egg extracts. RecQL4 loading onto chromatin was observed regardless of the presence or absence of EcoRI. However, in the absence of EcoRI, RecQL4 loading was suppressed by geminin, an inhibitor of pre-replicative complex formation, while in the presence of EcoRI, it was not affected. These results suggest that under the former condition, RecQL4-loading depended on DNA replication, while under the latter, the interaction occurred in response to double-stranded DNA breaks (DSBs) induced by EcoRI. DSB-induced RecQL4 loading depended on the function of the ataxia-telangiectasia mutated protein, DNA-dependent protein kinase (DNA-PK), and replication protein A, while there were only minor changes in DNA replication-associated RecQL4 loading upon suppression of these proteins. Furthermore, analyses using a chromatin-immunoprecipitation assay and quantification of gammaH2AX after induction of DSBs suggested that RecQL4 is loaded adjacent to Ku heterodimer-binding sites on damaged chromatin, and functions in the repair of DSBs.

Published
2007
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40. Chromatin loading of Smc5/6 is induced by DNA replication but not by DNA double-strand breaks.

Author

Tsuyama T, Inou K, Seki M, Seki T, Kumata Y, Kobayashi T, Kimura K, Hanaoka F, Enomoto T, and Tada S

Subjects
Animals, DNA Damage, G2 Phase, Mitosis, S Phase, Xenopus laevis, Chromatin metabolism, Chromosomal Proteins, Non-Histone metabolism, DNA Breaks, Double-Stranded, DNA Replication, Xenopus Proteins metabolism
Abstract

Smc6, a member of the structural maintenance of chromosomes (SMC) family of proteins, forms a complex with related Smc5. Genetic analyses of yeast have demonstrated the involvement of Smc6 in DNA repair and checkpoint responses. In this study, we investigated the role of the Smc5/6 complex in higher eukaryotes by analyzing its behavior in Xenopus laevis egg extracts. Smc5/6 was loaded onto chromatin during DNA replication in a manner dependent on the initiation of DNA synthesis, and it dissociated from chromatin during mitosis. Moreover, the induction of DNA double-strand breaks following replication did not significantly affect the amount of chromatin-associated Smc6. These findings suggest that the Smc5/6 complex is regulated during the cell cycle, presumably in anticipation of DNA damage that may arise during replication.

Published
2006
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