Your search keyword '"Aw, S T."' showing total 32 results

1. Ocular vestibular evoked myogenic potentials in superior canal dehiscence

Author

Rosengren, S M, Aw, S T, Halmagyi, G M, Todd, N P McAngus, and Colebatch, J G

Published

2008

2. Compensation of the human vertical vestibulo-ocular reflex following occlusion of one vertical semicircular canal is incomplete

Author

Aw, S. T., Halmagyi, G. M., Pohl, D. V., Curthoys, I. S., Yavor, R. A., and Todd, M. J.

Published

1995

3. Unilateral vestibular deafferentation causes permanent impairment of the human vertical vestibulo-ocular reflex in the pitch plane

Author

Aw, S. T., Halmagyi, G. M., Curthoys, I. S., Todd, M. J., and Yavor, R. A.

Published

1994

4. Vestibular Responses to Sound

Author

HALMAGYI, G M, CURTHOYS, I S, COLEBATCH, J G, and AW, S T

Published

2005

5. Inferior Vestibular Neuritis

Author

HALMAGYI, G. M., AW, S. T., KARLBERG, M., CURTHOYS, I. S., and TODD, M. J.

Published

2002

6. Impulsive Testing of Individual Semicircular Canal Function

Author

HALMAGYI, G. M., AW, S. T., CREMER, P. D., CURTHOYS, I. S., and TODD, M. J.

Published

2001

7. Production of charged pions, kaons and protons at large transverse momenta in pp and Pb–Pb collisions at √sNN = 2.76 TeV

Author

Piano, Stefano, Lea, Ramona, Camerini, Paolo, Luparello, Grazia, Margagliotti, Giacomo, Rui, Rinaldo, Abelev bt, B., Adam ak, J., Adamová cb, D., Aggarwal cf, M. M., Aglieri Rinella ah, G., Agnello cm, M., Agostinelli z, A., Agrawal ar, N., Ahammed dw, Z., Ahmad r, N., Ahmad Masoodi r, A., Ahmed o, I., Ahn bm, S. U., Ahn bm, S. A., Aimo cm, I., Aiola eb, S., Ajaz o, M., Akindinov bc, A., Aleksandrov cs, D., Alessandro dd, B., Alexandre cu, D., Alici cx, A., L, Alkin c, A., Alme ai, J., Alt am, T., Altini ae, V., Altinpinar q, S., Altsybeev dv, I., Alves Garcia Prado dl, C., Andrei bw, C., Andronic cp, A., Anguelov cl, V., Anielski ay, J., Anticˇic ́ cq, T., Antinori da, F., Antonioli cx, P., Aphecetche df, L., Appelshäuser aw, H., Arbor bp, N., Arcelli z, S., Armesto p, N., Arnaldi dd, R., Aronsson eb, T., Arsene u, I. C., Arslandok aw, M., Augustinus ah, A., Averbeck cp, R., Awes cc, T. C., Azmi r, M. D., Bach am, M., Badalà cz, A., Baek an, Y. W., Bagnasco dd, S., Bailhache aw, R., Bairathi cj, V., Bala ci, R., Baldisseri n, A., Baltasar Dos Santos Pedrosa ah, F., Bán bd, J., Baral bf, R. C., Barbera aa, R., Barile ae, F., Barnaföldi ea, G. G., Barnby cu, L. S., Barret bo, V., Bartke di, J., Basile z, M., Bastid bo, N., Basu dw, S., Bathen ay, B., Batigne df, G., Batyunya bk, B., Batzing u, P. C., Baumann aw, C., Bearden by, I. G., Beck aw, H., Bedda cm, C., Behera ar, N. K., Belikov az, I., Bellini z, F., Bellwied dn, R., Belmont Moreno bi, E., Bencedi ea, G., Beole y, S., Berceanu bw, I., Bercuci bw, A., Berdnikov cd, Y., 1, Berenyi ea, D., Berger ck, M. E., Bertens bb, R. A., Berzano y, D., Betev ah, L., Bhasin ci, A., Bhati cf, A. K., Bhattacharjee ao, B., Bhom ds, J., Bianchi y, L., Bianchi bq, N., Bianchin bb, C., Bielcˇík ak, J., Bielcˇíková cb, J., Bilandzic by, A., Bjelogrlic bb, S., Blanco j, F., Blau cs, D., Blume aw, C., Bock cl, F., Bogdanov bu, A., Bøggild by, H., Bogolyubsky de, M., Böhmer ck, F. V., Boldizsár ea, L., Bombara al, M., Book aw, J., Borel n, H., Borissov dz, A., Bornschein am, J., Bossú bj, F., Botje bz, M., Botta y, E., Böttger av, S., Braun Munzinger cp, P., Bregant dl, M., Breitner av, T., Broker aw, T. A., Browning cn, T. A., Broz aj, M., Bruna dd, E., Bruno ae, G. E., Budnikov cr, D., Buesching aw, H., Bufalino dd, S., Buncic ah, P., Busch cl, O., Buthelezi bj, Z., Caffarri ab, D., Cai g, X., Caines eb, H., Caliva bb, A., Calvo Villar cv, E., Canoa Roman ah, V., Carena ah, F., Carena ah, W., Carminati ah, F., Casanova Díaz bq, A., Castillo Castellanos n, J., Casula w, E. A. R., Catanescu bw, V., Cavicchioli ah, C., Ceballos Sanchez i, C., Cepila ak, J., Cerello dd, P., Chang do, B., Chapeland ah, S., Charvet n, J. L., Chattopadhyay dw, S., Chattopadhyay ct, S., Cherney ce, M., Cheshkov du, C., Cheynis du, B., Chibante Barroso ah, V., Chinellato dn, D. D., Chochula ah, P., Chojnacki by, M., Choudhury dw, S., Christakoglou bz, P., Christensen by, C. H., Christiansen af, P., Chujo ds, T., Chung co, S. U., Cicalo cy, C., Cifarelli l, L., Z, Cindolo cx, F., Cleymans ch, J., Colamaria ae, F., Colella ae, D., Collu w, A., Colocci z, M., Conesa Balbastre bp, G., Conesa del Valle au, Z., Connors eb, M. E., Contin x, G., Contreras k, J. G., Cormier cc, T. M., Corrales Morales y, Y., Cortese ad, P., Cortés Maldonado b, I., Cosentino bs, M. R., Costa ah, F., Crochet bo, P., Cruz Albino k, R., Cuautle bh, E., Cunqueiro bq, L., Dainese da, A., Dang g, R., Danu bg, A., Das ct, D., Das au, I., Das ct, K., Das d, S., Dash dm, A., Dash ar, S., De dw, S., Delagrange df, H., 2, Deloff bv, A., Dénes ea, E., D’Erasmo ae, G., de Barros dl, G. O. V., De Caro l, A., de Cataldo cw, G., de Cuveland am, J., De Falco w, A., De Gruttola ac, D., De Marco dd, N., De Pasquale ac, S., de Rooij bb, R., Diaz Corchero j, M. A., Dietel ay, T., Divià ah, R., Di Bari ae, D., Di Liberto db, S., Di Mauro ah, A., Di Nezza bq, P., Djuvsland q, Ø., Dobrin bb, A., Dobrowolski bv, T., Domenicis Gimenez dl, D., Dönigus aw, B., Dordic u, O., Dørheim ck, S., Dubey dw, A. K., Dubla bb, A., Ducroux du, L., Dupieux bo, P., Dutta Majumdar ct, A. K., Ehlers eb, R. J., Elia cw, D., Engel av, H., Erazmus ah, B., Erdal ai, H. A., Eschweiler am, D., Espagnon au, B., Estienne df, M., Esumi ds, S., Evans cu, D., Evdokimov de, S., Eyyubova u, G., Fabris da, D., Faivre bp, J., Falchieri z, D., Fantoni bq, A., Fasel cl, M., Fehlker q, D., Feldkamp ay, L., Felea bg, D., Feliciello dd, A., Feofilov dv, G., Ferencei cb, J., Fernández Téllez b, A., Ferreiro p, E. G., Ferretti y, A., Festanti ab, A., Figiel di, J., Figueredo dl, M. A. S., Filchagin cr, S., Finogeev ba, D., Fionda ae, F. M., Fiore ae, E. M., Floratos cg, E., Floris ah, M., Foertsch bj, S., Foka cp, P., Fokin cs, S., Fragiacomo dc, E., Francescon ab, A., Frankenfeld cp, U., Fuchs ah, U., Furget bp, C., Fusco Girard ac, M., Gaardhøje by, J. J., Gagliardi y, M., Gago cv, A. M., Gallio y, M., Gangadharan s, D. R., Ganoti cg, P., Garabatos cp, C., Garcia Solis m, E., Gargiulo ah, C., Garishvili bt, I., Gerhard am, J., Germain df, M., Gheata ah, A., Gheata bg, M., Ghidini ae, B., Ghosh dw, P., Ghosh d, S. K., Gianotti bq, P., Giubellino ah, P., Gladysz Dziadus di, E., Glässel cl, P., Gomez k, R., González Zamora j, P., Gorbunov am, S., Görlich di, L., Gotovac dh, S., Graczykowski dy, L. K., Grajcarek cl, R., Grelli bb, A., Grigoras ah, A., Grigoras ah, C., Grigoriev bu, V., Grigoryan a, A., Grigoryan bk, S., Grinyov c, B., Grion dc, N., Grosse Oetringhaus ah, J. F., Grossiord du, J. Y., Grosso ah, R., Guber ba, F., Guernane bp, R., Guerzoni z, B., Guilbaud du, M., Gulbrandsen by, K., Gulkanyan a, H., Gunji dr, T., Gupta ci, A., Gupta ci, R., Khan o, K. H., Haake ay, R., Haaland q, Ø., Hadjidakis au, C., Haiduc bg, M., Hamagaki dr, H., Hamar ea, G., Hanratty cu, L. D., Hansen by, A., Harris eb, J. W., Hartmann am, H., Harton m, A., Hatzifotiadou cx, D., Hayashi dr, S., Heckel aw, S. T., Heide ay, M., Helstrup ai, H., Herghelegiu bw, A., Herrera Corral k, G., Hess ag, B. A., Hetland ai, K. F., Hicks eb, B., Hippolyte az, B., Hladky be, J., Hristov ah, P., Huang q, M., Humanic s, T. J., Hutter am, D., Hwang t, D. S., Ilkaev cr, R., Ilkiv bv, I., Inaba ds, M., Incani w, E., Innocenti y, G. M., Ionita ah, C., Ippolitov cs, M., Irfan r, M., Ivanov cp, M., Ivanov cd, V., Ivanytskyi c, O., Jachołkowski aa, A., Jacobs bs, P. M., Jahnke dl, C., Jang bm, H. J., Janik dy, M. A., Jayarathna dn, P. H. S. Y., Jena ar, S., Jimenez Bustamante bh, R. T., Jones cu, P. G., Jung an, H., Jusko cu, A., Kalcher am, S., Kalinak bd, P., Kalweit ah, A., Kamin aw, J., Kang ec, J. H., Kaplin bu, V., Kar dw, S., Karasu Uysal bn, A., Karavichev ba, O., Karavicheva ba, T., Karpechev ba, E., Kebschull av, U., Keidel ed, R., Ketzer ck, B., Khan r, M. M., 3, Khan ct, P., Khan dw, S. A., Khanzadeev cd, A., Kharlov de, Y., Kileng ai, B., Kim ec, B., Kim bm, D. W., Kim do, D. J., Kim an, J. S., Kim an, M., Kim ec, M., Kim t, S., Kim ec, T., Kirsch am, S., Kisel am, I., Kiselev bc, S., Kisiel dy, A., Kiss ea, G., Klay f, J. L., Klein cl, J., Klein Bösing ay, C., Kluge ah, A., Knichel cp, M. L., Knospe dj, A. G., Kobdaj ah, C., Kofarago ah, M., Köhler cp, M. K., Kollegger am, T., Kolojvari dv, A., Kondratiev dv, V., Kondratyeva bu, N., Konevskikh ba, A., Kovalenko dv, V., Kowalski ah, M., Kox bp, S., Koyithatta Meethaleveedu ar, G., Kral do, J., Králik bd, I., Kramer aw, F., Kravcˇáková al, A., Krelina ak, M., Kretz am, M., Krivda cu, M., Krizek cb, F., Krus ak, M., Kryshen cd, E., Krzewicki cp, M., Kucˇera cb, V., Kucheriaev cs, Y., Kugathasan ah, T., Kuhn az, C., Kuijer bz, P. G., Kulakov aw, I., Kumar ar, J., Kurashvili bv, P., Kurepin ba, A., Kurepin ba, A. B., Kuryakin cr, A., Kushpil cb, S., Kushpil cb, V., Kweon cl, M. J., Kwon ec, Y., Ladron de Guevara bh, P., Lagana Fernandes dl, C., Lakomov au, I., Langoy dx, R., Lara av, C., Lardeux df, A., Lattuca y, A., La Pointe dd, S. L., La Rocca aa, P., Leardini cl, L., Lee cu, G. R., Legrand ah, I., Lehnert aw, J., Lemmon ca, R. C., Lenhardt cp, M., Lenti cw, V., Leogrande bb, E., Leoncino y, M., León Monzón dk, I., Lévai ea, P., Li g, S., Lien dx, J., Lietava cu, R., Lindal u, S., Lindenstruth am, V., Lippmann cp, C., Lisa s, M. A., Ljunggren af, H. M., Lodato bb, D. F., Loenne q, P. I., Loggins dz, V. R., Loginov bu, V., Lohner cl, D., Loizides bs, C., Lopez bo, X., López Torres i, E., Lu cl, X. G., Luettig aw, P., Lunardon ab, M., Luo g, J., Luzzi ah, C., Ma eb, R., Maevskaya ba, A., Mager ah, M., Mahapatra bf, D. P., Maire cl, A., Malaev cd, M., Maldonado Cervantes bh, I., Malinina bk, L., 4, Mal’Kevich bc, D., Malzacher cp, P., Mamonov cr, A., Manceau dd, L., Manko cs, V., Manso bo, F., Manzari ah, V., Marchisone y, M., Mareš be, J., Margotti cx, A., Marín cp, A., Markert ah, C., Marquard aw, M., Martashvili dq, I., Martin cp, N. A., Martinengo ah, P., Martínez b, M. I., Martínez García df, G., Martin Blanco df, J., Martynov c, Y., Mas df, A., Masciocchi cp, S., Masera y, M., Masoni cy, A., Massacrier df, L., Mastroserio ae, A., Matyja di, A., Mayer di, C., Mazer dq, J., Mazumder as, R., Mazzoni db, M. A., Meddi v, F., Menchaca Rocha bi, A., Meninno ac, E., Mercado Pérez cl, J., Meres aj, M., Miake ds, Y., Mikhaylov bc, K., Milano ah, L., Milosevic u, J., 5, Mischke bb, A., Mishra as, A. N., Mis ́kowiec cp, D., Mitu bg, C. M., Mlynarz dz, J., Mohanty dw, B., Molnar az, L., Montaño Zetina k, L., Montes j, E., Morando ab, M., Moreira De Godoy dl, D. A., Moretto ab, S., Morreale do, A., Morsch ah, A., Muccifora bq, V., Mudnic dh, E., Muhuri dw, S., Mukherjee dw, M., Müller ah, H., Munhoz dl, M. G., Murray ch, S., Musa ah, L., Musinsky bd, J., Nandi ar, B. K., Nania cx, R., Nappi cw, E., Nattrass dq, C., Nayak dw, T. K., Nazarenko cr, S., Nedosekin bc, A., Nicassio cp, M., Niculescu bg, M., Nielsen by, B. S., Nikolaev cs, S., Nikulin cs, S., Nikulin cd, V., Nilsen ce, B. S., Noferini l, F., Nomokonov bk, P., Nooren bb, G., Nyanin cs, A., Nystrand q, J., Oeschler cl, H., Oh eb, S., Oh bl, S. K., An, 6, Okatan bn, A., Olah ea, L., Oleniacz dy, J., Oliveira Da Silva dl, A. C., Onderwaater cp, J., Oppedisano dd, C., Ortiz Velasquez af, A., Oskarsson af, A., Otwinowski cp, J., Oyama cl, K., Pachmayer cl, Y., Pachr ak, M., Pagano ac, P., Paic ́ bh, G., Painke am, F., Pajares p, C., Pal dw, S. K., Palmeri cz, A., Pant ar, D., Papikyan a, V., Pappalardo cz, G. S., Park cp, W. J., Passfeld ay, A., Patalakha de, D. I., Paticchio cw, V., Paul ct, B., Pawlak dy, T., Peitzmann bb, T., Pereira Da Costa n, H., Pereira De Oliveira Filho dl, E., Peresunko cs, D., Pérez Lara bz, C. E., Peryt dy, W., Pesci cx, A., Pestov e, Y., Petrácˇek ak, V., Petran ak, M., Petris bw, M., Petrovici bw, M., Petta aa, C., Pikna aj, M., Pillot df, P., Pinazza ah, O., Pinsky dn, L., Piyarathna dn, D. B., Płoskon ́ bs, M., Planinic cq, M., Pluta dy, J., Pochybova ea, S., Podesta Lerma dk, P. L. M., Poghosyan ah, M. G., Pohjoisaho ap, E. H. O., Polichtchouk de, B., Poljak cq, N., Pop bw, A., Porteboeuf Houssais bo, S., Porter bs, J., Pospisil ak, V., Potukuchi ci, B., Prasad d, S. K., Preghenella cx, R., Prino dd, F., Pruneau dz, C. A., Pshenichnov ba, I., Puddu w, G., Punin cr, V., Putschke dz, J., Qvigstad u, H., Rachevski dc, A., Raha d, S., Rak do, J., Rakotozafindrabe n, A., Ramello ad, L., Raniwala cj, R., Raniwala cj, S., Räsänen ap, S. S., Rascanu aw, B. T., Rathee cf, D., Rauf o, A. W., Razazi w, V., Read dq, K. F., Real bp, J. S., Redlich bv, K., 7, Reed eb, R. J., Rehman q, A., Reichelt aw, P., Reicher bb, M., Reidt cl, F., Renfordt aw, R., Reolon bq, A. R., Reshetin ba, A., Rettig am, F., Revol ah, J. P., Reygers cl, K., Riabov cd, V., Ricci br, R. A., Richert af, T., Richter u, M., Riedler ah, P., Riegler ah, W., Riggi aa, F., Rivetti dd, A., Rocco bb, E., Rodríguez Cahuantzi b, M., Rodriguez Manso bz, A., Røed u, K., Rogochaya bk, E., Rohni ci, S., Rohr am, D., Röhrich q, D., Romita dp, R., Ronchetti bq, F., Ronflette df, L., Rosnet bo, P., Rossegger ah, S., Rossi ah, A., Roukoutakis cg, F., Roy as, A., Roy az, C., Roy ct, P., Rubio Montero j, A. J., Russo y, R., Ryabinkin cs, E., Ryabov cd, Y., Rybicki di, A., Sadovsky de, S., Šafarˇík ah, K., Sahlmuller aw, B., Sahoo as, R., Sahu bf, P. K., Saini dw, J., Salgado p, C. A., Salzwedel s, J., Sambyal ci, S., Samsonov cd, V., Sanchez Castro az, X., Sánchez Rodríguez dk, F. J., Šándor bd, L., Sandoval bi, A., Sano ds, M., Santagati aa, G., Sarkar dw, D., Scapparone cx, E., Scarlassara ab, F., Scharenberg cn, R. P., Schiaua bw, C., Schicker cl, R., Schmidt cp, C., Schmidt ag, H. R., Schuchmann aw, S., Schukraft ah, J., Schulc ak, M., Schuster eb, T., Schutz ah, Y., Schwarz cp, K., Schweda cp, K., Scioli z, G., Scomparin dd, E., Scott cu, P. A., Scott dq, R., Segato ab, G., Seger ce, J. E., Selyuzhenkov cp, I., Seo co, J., Serradilla j, E., Sevcenco bg, A., Shabetai df, A., Shabratova bk, G., Shahoyan ah, R., Shangaraev de, A., Sharma dq, N., Sharma ci, S., Shigaki aq, K., Shtejer y, K., Sibiriak cs, Y., Siddhanta cy, S., Siemiarczuk bv, T., Silvermyr cc, D., Silvestre bp, C., Simatovic dt, G., Singaraju dw, R., Singh ci, R., Singha bx, S., Singhal dw, V., Sinha dw, B. C., Sinha ct, T., Sitar aj, B., Sitta ad, M., Skaali u, T. B., Skjerdal q, K., Smakal ak, R., Smirnov eb, N., Snellings bb, R. J. M., Søgaard af, C., Soltz bt, R., Song co, J., Song ec, M., Soramel ab, F., Sorensen dq, S., Spacek ak, M., Sputowska di, I., Spyropoulou Stassinaki cg, M., Srivastava cn, B. K., Stachel cl, J., Stan bg, I., Stefanek bv, G., Steinpreis s, M., Stenlund af, E., Steyn bj, G., Stiller cl, J. H., Stocco df, D., Stolpovskiy de, M., Strmen aj, P., Suaide dl, A. A. P., Subieta Vasquez y, M. A., Sugitate aq, T., Suire au, C., Suleymanov o, M., Sultanov bc, R., Šumbera cb, M., Susa cq, T., Symons bs, T. J. M., Szanto de Toledo dl, A., Szarka aj, I., Szczepankiewicz ah, A., Szymanski dy, M., Takahashi dm, J., Tangaro ae, M. A., Tapia Takaki au, J. D., 8, Tarantola Peloni aw, A., Tarazona Martinez ah, A., Tarzila bw, M. G., Tauro ah, A., Tejeda Muñoz b, G., Telesca ah, A., Terrevoli w, C., Ter Minasyan bu, A., Thäder cp, J., Thomas bb, D., Tieulent du, R., Timmins dn, A. R., Toia da, A., Torii dr, H., Trubnikov c, V., Trzaska do, W. H., Tsuji dr, T., Tumkin cr, A., Turrisi da, R., Tveter u, T. S., Ulery aw, J., Ullaland q, K., Uras du, A., Usai w, G. L., Vajzer cb, M., Vala bk, M., Valencia Palomo au, L., Vallero y, S., Vande Vyvre ah, P., Vannucci br, L., Van Der Maarel bb, J., Van Hoorne ah, J. W., van Leeuwen bb, M., Vargas b, A., Varma ar, R., Vasileiou cg, M., Vasiliev cs, A., Vechernin dv, V., Veldhoen bb, M., Velure q, A., Venaruzzo x, M., Vercellin y, E., Vergara Limón b, S., Vernet h, R., Verweij dz, M., Vickovic dh, L., Viesti ab, G., Viinikainen do, J., Vilakazi bj, Z., Villalobos Baillie cu, O., Vinogradov cs, A., Vinogradov dv, L., Vinogradov cr, Y., Virgili ac, T., Viyogi dw, Y. P., Vodopyanov bk, A., Völkl cl, M. A., Voloshin bc, K., Voloshin dz, S. A., Volpe ah, G., von Haller ah, B., Vorobyev dv, I., Vranic cp, D., Vrláková al, J., Vulpescu bo, B., Vyushin cr, A., Wagner q, B., Wagner cp, J., Wagner ak, V., Wang g, M., Wang cl, Y., Watanabe ds, D., Weber dn, M., Wessels ay, J. P., Westerhoff ay, U., Wiechula ag, J., Wikne u, J., Wilde ay, M., Wilk bv, G., Wilkinson cl, J., Williams cx, M. C. S., Windelband cl, B., Winn cl, M., Xiang g, C., Yaldo dz, C. G., Yamaguchi dr, Y., Yang bb, H., Yang g, P., Yang q, S., Yano aq, S., Yasnopolskiy cs, S., Yi co, J., Yin g, Z., Yoo co, I. K., Yushmanov cs, I., Zaccolo by, V., Zach ak, C., Zaman o, A., Zampolli cx, C., Zaporozhets bk, S., Zarochentsev dv, A., Závada be, P., Zaviyalov cr, N., Zbroszczyk dy, H., Zgura bg, I. S., Zhalov cd, M., Zhang g, F., Zhang g, H., Zhang bo, X., Bs, G, Zhangg, Y., Zhaou, C., Zhoug, D., Zhoug, F., Zhoubb, Y., Zhug, H., Zhudf, J., G, Zhug, J., Zhug, X., Zichichil, A., Zimmermann cl, A., Zimmermann ay, M. B., Zinovjev c, G., Zoccarato du, Y., Zynovyev c, M., Zyzak aw, M., Piano, Stefano, Lea, Ramona, Camerini, Paolo, Luparello, Grazia, Margagliotti, Giacomo, Rui, Rinaldo, B., Abelev bt, J., Adam ak, D., Adamová cb, M. M., Aggarwal cf, G., Aglieri Rinella ah, M., Agnello cm, Dd, A., Agostinelli z, N., Agrawal ar, Z., Ahammed dw, N., Ahmad r, A., Ahmad Masoodi r, I., Ahmed o, S. U., Ahn bm, S. A., Ahn bm, I., Aimo cm, S., Aiola eb, M., Ajaz o, A., Akindinov bc, D., Aleksandrov c, B., Alessandro dd, D., Alexandre cu, A., Alici cx, L, A., Alkin c, J., Alme ai, T., Alt am, V., Altini ae, S., Altinpinar q, I., Altsybeev dv, C., Alves Garcia Prado dl, C., Andrei bw, A., Andronic cp, V., Anguelov cl, J., Anielski ay, T., Anticˇic ́ cq, F., Antinori da, P., Antonioli cx, L., Aphecetche df, H., Appelshäuser aw, N., Arbor bp, S., Arcelli z, N., Armesto p, R., Arnaldi dd, T., Aronsson eb, I. C., Arsene u, Cp, M., Arslandok aw, A., Augustinus ah, R., Averbeck cp, T. C., Awes cc, M. D., Azmi r, Ch, M., Bach am, A., Badalà cz, Y. W., Baek an, Bo, S., Bagnasco dd, R., Bailhache aw, V., Bairathi cj, R., Bala ci, A., Baldisseri n, F., Baltasar Dos Santos Pedrosa ah, J., Bán bd, R. C., Baral bf, R., Barbera aa, F., Barile ae, G. G., Barnaföldi ea, L. S., Barnby cu, V., Barret bo, J., Bartke di, M., Basile z, N., Bastid bo, S., Basu dw, B., Bathen ay, G., Batigne df, B., Batyunya bk, P. C., Batzing u, C., Baumann aw, I. G., Bearden by, H., Beck aw, C., Bedda cm, N. K., Behera ar, I., Belikov az, F., Bellini z, R., Bellwied dn, E., Belmont Moreno bi, G., Bencedi ea, S., Beole y, I., Berceanu bw, A., Bercuci bw, Y., Berdnikov cd, D., Berenyi ea, M. E., Berger ck, R. A., Bertens bb, D., Berzano y, L., Betev ah, A., Bhasin ci, A. K., Bhati cf, B., Bhattacharjee ao, J., Bhom d, L., Bianchi y, N., Bianchi bq, C., Bianchin bb, J., Bielcˇík ak, J., Bielcˇíková cb, A., Bilandzic by, S., Bjelogrlic bb, F., Blanco j, D., Blau c, C., Blume aw, F., Bock cl, Bs, A., Bogdanov bu, H., Bøggild by, M., Bogolyubsky de, F. V., Böhmer ck, L., Boldizsár ea, M., Bombara al, J., Book aw, H., Borel n, A., Borissov dz, Co, J., Bornschein am, F., Bossú bj, M., Botje bz, E., Botta y, S., Böttger av, P., Braun Munzinger cp, M., Bregant dl, T., Breitner av, T. A., Broker aw, T. A., Browning cn, M., Broz aj, Ak, E., Bruna dd, G. E., Bruno ae, D., Budnikov cr, H., Buesching aw, S., Bufalino dd, P., Buncic ah, O., Busch cl, Z., Buthelezi bj, D., Caffarri ab, X., Cai g, H., Caines eb, A., Caliva bb, E., Calvo Villar cv, V., Canoa Roman ah, F., Carena ah, W., Carena ah, F., Carminati ah, A., Casanova Díaz bq, J., Castillo Castellanos n, E. A. R., Casula w, V., Catanescu bw, C., Cavicchioli ah, C., Ceballos Sanchez i, J., Cepila ak, P., Cerello dd, B., Chang do, S., Chapeland ah, J. L., Charvet n, S., Chattopadhyay dw, S., Chattopadhyay ct, M., Cherney ce, C., Cheshkov du, B., Cheynis du, V., Chibante Barroso ah, D. D., Chinellato dn, Dm, P., Chochula ah, M., Chojnacki by, S., Choudhury dw, P., Christakoglou bz, C. H., Christensen by, P., Christiansen af, T., Chujo d, S. U., Chung co, C., Cicalo cy, L., Cifarelli l, Z, F., Cindolo cx, J., Cleymans ch, F., Colamaria ae, D., Colella ae, A., Collu w, M., Colocci z, G., Conesa Balbastre bp, Z., Conesa del Valle au, Ah, M. E., Connors eb, Contin x, G., J. G., Contreras k, T. M., Cormier cc, Dz, Y., Corrales Morales y, P., Cortese ad, I., Cortés Maldonado b, M. R., Cosentino b, Dl, F., Costa ah, P., Crochet bo, R., Cruz Albino k, E., Cuautle bh, L., Cunqueiro bq, A., Dainese da, R., Dang g, A., Danu bg, D., Das ct, I., Das au, K., Das ct, S., Das d, A., Dash dm, S., Dash ar, S., De dw, H., Delagrange df, A., Deloff bv, E., Dénes ea, G., D’Erasmo ae, G. O. V., de Barros dl, A., De Caro l, Ac, G., de Cataldo cw, J., de Cuveland am, A., De Falco w, D., De Gruttola ac, N., De Marco dd, S., De Pasquale ac, R., de Rooij bb, M. A., Diaz Corchero j, T., Dietel ay, R., Divià ah, D., Di Bari ae, S., Di Liberto db, A., Di Mauro ah, P., Di Nezza bq, Ø., Djuvsland q, A., Dobrin bb, T., Dobrowolski bv, D., Domenicis Gimenez dl, B., Dönigus aw, O., Dordic u, S., Dørheim ck, A. K., Dubey dw, A., Dubla bb, L., Ducroux du, P., Dupieux bo, A. K., Dutta Majumdar ct, R. J., Ehlers eb, D., Elia cw, H., Engel av, B., Erazmus ah, Df, H. A., Erdal ai, D., Eschweiler am, B., Espagnon au, M., Estienne df, S., Esumi d, D., Evans cu, S., Evdokimov de, G., Eyyubova u, D., Fabris da, J., Faivre bp, D., Falchieri z, A., Fantoni bq, M., Fasel cl, D., Fehlker q, L., Feldkamp ay, D., Felea bg, A., Feliciello dd, G., Feofilov dv, J., Ferencei cb, A., Fernández Téllez b, E. G., Ferreiro p, A., Ferretti y, A., Festanti ab, J., Figiel di, M. A. S., Figueredo dl, Dp, S., Filchagin cr, D., Finogeev ba, F. M., Fionda ae, E. M., Fiore ae, E., Floratos cg, M., Floris ah, S., Foertsch bj, P., Foka cp, S., Fokin c, E., Fragiacomo dc, A., Francescon ab, U., Frankenfeld cp, U., Fuchs ah, C., Furget bp, M., Fusco Girard ac, J. J., Gaardhøje by, M., Gagliardi y, A. M., Gago cv, M., Gallio y, D. R., Gangadharan, P., Ganoti cg, Cc, C., Garabatos cp, E., Garcia Solis m, C., Gargiulo ah, I., Garishvili bt, J., Gerhard am, M., Germain df, A., Gheata ah, M., Gheata bg, B., Ghidini ae, P., Ghosh dw, S. K., Ghosh d, P., Gianotti bq, P., Giubellino ah, E., Gladysz Dziadus di, P., Glässel cl, R., Gomez k, P., González Zamora j, S., Gorbunov am, L., Görlich di, S., Gotovac dh, L. K., Graczykowski dy, R., Grajcarek cl, A., Grelli bb, A., Grigoras ah, C., Grigoras ah, V., Grigoriev bu, A., Grigoryan a, S., Grigoryan bk, B., Grinyov c, N., Grion dc, J. F., Grosse Oetringhaus ah, J. Y., Grossiord du, R., Grosso ah, F., Guber ba, R., Guernane bp, B., Guerzoni z, M., Guilbaud du, K., Gulbrandsen by, H., Gulkanyan a, T., Gunji dr, A., Gupta ci, R., Gupta ci, K. H., Khan o, R., Haake ay, Ø., Haaland q, C., Hadjidakis au, M., Haiduc bg, H., Hamagaki dr, G., Hamar ea, L. D., Hanratty cu, A., Hansen by, J. W., Harris eb, H., Hartmann am, A., Harton m, D., Hatzifotiadou cx, S., Hayashi dr, S. T., Heckel aw, M., Heide ay, H., Helstrup ai, A., Herghelegiu bw, G., Herrera Corral k, B. A., Hess ag, K. F., Hetland ai, B., Hicks eb, B., Hippolyte az, J., Hladky be, P., Hristov ah, M., Huang q, T. J., Humanic, D., Hutter am, D. S., Hwang t, R., Ilkaev cr, I., Ilkiv bv, M., Inaba d, E., Incani w, G. M., Innocenti y, C., Ionita ah, M., Ippolitov c, M., Irfan r, M., Ivanov cp, V., Ivanov cd, O., Ivanytskyi c, A., Jachołkowski aa, P. M., Jacobs b, C., Jahnke dl, H. J., Jang bm, M. A., Janik dy, P. H. S. Y., Jayarathna dn, S., Jena ar, Dn, R. T., Jimenez Bustamante bh, P. G., Jones cu, H., Jung an, A., Jusko cu, S., Kalcher am, P., Kalinak bd, A., Kalweit ah, J., Kamin aw, J. H., Kang ec, V., Kaplin bu, S., Kar dw, A., Karasu Uysal bn, O., Karavichev ba, T., Karavicheva ba, E., Karpechev ba, U., Kebschull av, R., Keidel ed, B., Ketzer ck, M. M., Khan r, P., Khan ct, S. A., Khan dw, A., Khanzadeev cd, Y., Kharlov de, B., Kileng ai, B., Kim ec, D. W., Kim bm, An, D. J., Kim do, J. S., Kim an, M., Kim an, M., Kim ec, S., Kim t, T., Kim ec, S., Kirsch am, I., Kisel am, S., Kiselev bc, A., Kisiel dy, G., Kiss ea, J. L., Klay f, J., Klein cl, C., Klein Bösing ay, A., Kluge ah, M. L., Knichel cp, A. G., Knospe dj, C., Kobdaj ah, Dg, M., Kofarago ah, M. K., Köhler cp, T., Kollegger am, A., Kolojvari dv, V., Kondratiev dv, N., Kondratyeva bu, A., Konevskikh ba, V., Kovalenko dv, M., Kowalski ah, Di, S., Kox bp, G., Koyithatta Meethaleveedu ar, J., Kral do, I., Králik bd, F., Kramer aw, A., Kravcˇáková al, M., Krelina ak, M., Kretz am, M., Krivda cu, Bd, F., Krizek cb, Ap, M., Krus ak, E., Kryshen cd, M., Krzewicki cp, V., Kucˇera cb, Y., Kucheriaev c, T., Kugathasan ah, C., Kuhn az, P. G., Kuijer bz, I., Kulakov aw, J., Kumar ar, P., Kurashvili bv, A., Kurepin ba, A. B., Kurepin ba, A., Kuryakin cr, S., Kushpil cb, V., Kushpil cb, M. J., Kweon cl, At, Y., Kwon ec, P., Ladron de Guevara bh, C., Lagana Fernandes dl, I., Lakomov au, R., Langoy dx, C., Lara av, A., Lardeux df, A., Lattuca y, S. L., La Pointe dd, Bb, P., La Rocca aa, L., Leardini cl, G. R., Lee cu, I., Legrand ah, J., Lehnert aw, R. C., Lemmon ca, M., Lenhardt cp, V., Lenti cw, E., Leogrande bb, M., Leoncino y, I., León Monzón dk, P., Lévai ea, S., Li g, J., Lien dx, R., Lietava cu, S., Lindal u, V., Lindenstruth am, C., Lippmann cp, M. A., Lisa, H. M., Ljunggren af, D. F., Lodato bb, P. I., Loenne q, V. R., Loggins dz, V., Loginov bu, D., Lohner cl, C., Loizides b, X., Lopez bo, E., López Torres i, X. G., Lu cl, P., Luettig aw, M., Lunardon ab, J., Luo g, C., Luzzi ah, R., Ma eb, A., Maevskaya ba, M., Mager ah, D. P., Mahapatra bf, A., Maire cl, Az, M., Malaev cd, I., Maldonado Cervantes bh, L., Malinina bk, D., Mal’Kevich bc, P., Malzacher cp, A., Mamonov cr, L., Manceau dd, V., Manko c, F., Manso bo, V., Manzari ah, Cw, M., Marchisone y, J., Mareš be, A., Margotti cx, A., Marín cp, C., Markert ah, Dj, M., Marquard aw, I., Martashvili dq, N. A., Martin cp, P., Martinengo ah, M. I., Martínez b, G., Martínez García df, J., Martin Blanco df, Y., Martynov c, A., Mas df, S., Masciocchi cp, M., Masera y, A., Masoni cy, L., Massacrier df, A., Mastroserio ae, A., Matyja di, C., Mayer di, J., Mazer dq, R., Mazumder a, M. A., Mazzoni db, F., Meddi v, A., Menchaca Rocha bi, E., Meninno ac, J., Mercado Pérez cl, M., Meres aj, Y., Miake d, K., Mikhaylov bc, Bk, L., Milano ah, J., Milosevic u, A., Mischke bb, A. N., Mishra a, D., Mis ́kowiec cp, C. M., Mitu bg, J., Mlynarz dz, B., Mohanty dw, Bx, L., Molnar az, L., Montaño Zetina k, E., Montes j, M., Morando ab, D. A., Moreira De Godoy dl, S., Moretto ab, A., Morreale do, A., Morsch ah, V., Muccifora bq, E., Mudnic dh, S., Muhuri dw, M., Mukherjee dw, H., Müller ah, M. G., Munhoz dl, S., Murray ch, L., Musa ah, J., Musinsky bd, B. K., Nandi ar, R., Nania cx, E., Nappi cw, C., Nattrass dq, T. K., Nayak dw, S., Nazarenko cr, A., Nedosekin bc, M., Nicassio cp, M., Niculescu bg, B. S., Nielsen by, S., Nikolaev c, S., Nikulin c, V., Nikulin cd, B. S., Nilsen ce, F., Noferini l, Cx, P., Nomokonov bk, G., Nooren bb, A., Nyanin c, J., Nystrand q, H., Oeschler cl, Ax, S., Oh eb, S. K., Oh bl, An, 6, A., Okatan bn, L., Olah ea, J., Oleniacz dy, A. C., Oliveira Da Silva dl, J., Onderwaater cp, C., Oppedisano dd, A., Ortiz Velasquez af, A., Oskarsson af, J., Otwinowski cp, K., Oyama cl, Y., Pachmayer cl, M., Pachr ak, P., Pagano ac, G., Paic ́ bh, F., Painke am, C., Pajares p, S. K., Pal dw, A., Palmeri cz, D., Pant ar, V., Papikyan a, G. S., Pappalardo cz, W. J., Park cp, A., Passfeld ay, D. I., Patalakha de, V., Paticchio cw, B., Paul ct, T., Pawlak dy, T., Peitzmann bb, H., Pereira Da Costa n, E., Pereira De Oliveira Filho dl, D., Peresunko c, C. E., Pérez Lara bz, W., Peryt dy, A., Pesci cx, Y., Pestov e, V., Petrácˇek ak, M., Petran ak, M., Petris bw, M., Petrovici bw, C., Petta aa, M., Pikna aj, P., Pillot df, O., Pinazza ah, L., Pinsky dn, D. B., Piyarathna dn, M., Płoskon ́ b, M., Planinic cq, Dt, J., Pluta dy, S., Pochybova ea, P. L. M., Podesta Lerma dk, M. G., Poghosyan ah, Ce, E. H. O., Pohjoisaho ap, B., Polichtchouk de, N., Poljak cq, A., Pop bw, S., Porteboeuf Houssais bo, J., Porter b, V., Pospisil ak, B., Potukuchi ci, S. K., Prasad d, R., Preghenella cx, F., Prino dd, C. A., Pruneau dz, I., Pshenichnov ba, G., Puddu w, V., Punin cr, J., Putschke dz, H., Qvigstad u, A., Rachevski dc, S., Raha d, J., Rak do, A., Rakotozafindrabe n, L., Ramello ad, R., Raniwala cj, S., Raniwala cj, S. S., Räsänen ap, B. T., Rascanu aw, D., Rathee cf, A. W., Rauf o, V., Razazi w, K. F., Read dq, J. S., Real bp, K., Redlich bv, R. J., Reed eb, A., Rehman q, P., Reichelt aw, M., Reicher bb, F., Reidt cl, R., Renfordt aw, A. R., Reolon bq, A., Reshetin ba, F., Rettig am, J. P., Revol ah, K., Reygers cl, V., Riabov cd, R. A., Ricci br, T., Richert af, M., Richter u, P., Riedler ah, W., Riegler ah, F., Riggi aa, A., Rivetti dd, E., Rocco bb, M., Rodríguez Cahuantzi b, A., Rodriguez Manso bz, K., Røed u, E., Rogochaya bk, S., Rohni ci, D., Rohr am, D., Röhrich q, R., Romita dp, Ca, F., Ronchetti bq, L., Ronflette df, P., Rosnet bo, S., Rossegger ah, A., Rossi ah, F., Roukoutakis cg, A., Roy a, C., Roy az, P., Roy ct, A. J., Rubio Montero j, R., Russo y, E., Ryabinkin c, Y., Ryabov cd, A., Rybicki di, S., Sadovsky de, K., Šafarˇík ah, B., Sahlmuller aw, R., Sahoo a, P. K., Sahu bf, J., Saini dw, C. A., Salgado p, J., Salzwedel, S., Sambyal ci, V., Samsonov cd, X., Sanchez Castro az, Bh, F. J., Sánchez Rodríguez dk, L., Šándor bd, A., Sandoval bi, M., Sano d, G., Santagati aa, D., Sarkar dw, E., Scapparone cx, F., Scarlassara ab, R. P., Scharenberg cn, C., Schiaua bw, R., Schicker cl, C., Schmidt cp, H. R., Schmidt ag, S., Schuchmann aw, J., Schukraft ah, M., Schulc ak, T., Schuster eb, Y., Schutz ah, K., Schwarz cp, K., Schweda cp, G., Scioli z, E., Scomparin dd, P. A., Scott cu, R., Scott dq, G., Segato ab, J. E., Seger ce, I., Selyuzhenkov cp, J., Seo co, E., Serradilla j, Bi, A., Sevcenco bg, A., Shabetai df, G., Shabratova bk, R., Shahoyan ah, A., Shangaraev de, N., Sharma dq, Bf, S., Sharma ci, K., Shigaki aq, K., Shtejer y, Y., Sibiriak c, S., Siddhanta cy, T., Siemiarczuk bv, D., Silvermyr cc, C., Silvestre bp, G., Simatovic dt, R., Singaraju dw, R., Singh ci, S., Singha bx, Dw, V., Singhal dw, B. C., Sinha dw, T., Sinha ct, B., Sitar aj, M., Sitta ad, T. B., Skaali u, K., Skjerdal q, R., Smakal ak, N., Smirnov eb, R. J. M., Snellings bb, C., Søgaard af, R., Soltz bt, J., Song co, M., Song ec, F., Soramel ab, S., Sorensen dq, M., Spacek ak, I., Sputowska di, M., Spyropoulou Stassinaki cg, B. K., Srivastava cn, J., Stachel cl, I., Stan bg, G., Stefanek bv, M., Steinpreis, E., Stenlund af, G., Steyn bj, J. H., Stiller cl, D., Stocco df, M., Stolpovskiy de, P., Strmen aj, A. A. P., Suaide dl, M. A., Subieta Vasquez y, T., Sugitate aq, C., Suire au, M., Suleymanov o, R., Sultanov bc, M., Šumbera cb, T., Susa cq, T. J. M., Symons b, A., Szanto de Toledo dl, I., Szarka aj, A., Szczepankiewicz ah, M., Szymanski dy, J., Takahashi dm, M. A., Tangaro ae, J. D., Tapia Takaki au, A., Tarantola Peloni aw, A., Tarazona Martinez ah, M. G., Tarzila bw, A., Tauro ah, G., Tejeda Muñoz b, A., Telesca ah, C., Terrevoli w, A., Ter Minasyan bu, J., Thäder cp, D., Thomas bb, R., Tieulent du, A. R., Timmins dn, A., Toia da, Aw, H., Torii dr, V., Trubnikov c, W. H., Trzaska do, T., Tsuji dr, A., Tumkin cr, R., Turrisi da, T. S., Tveter u, J., Ulery aw, K., Ullaland q, A., Uras du, G. L., Usai w, M., Vajzer cb, M., Vala bk, L., Valencia Palomo au, S., Vallero y, Cl, P., Vande Vyvre ah, L., Vannucci br, J., Van Der Maarel bb, J. W., Van Hoorne ah, M., van Leeuwen bb, A., Vargas b, R., Varma ar, M., Vasileiou cg, A., Vasiliev c, V., Vechernin dv, M., Veldhoen bb, A., Velure q, M., Venaruzzo x, E., Vercellin y, S., Vergara Limón b, R., Vernet h, M., Verweij dz, L., Vickovic dh, G., Viesti ab, J., Viinikainen do, Z., Vilakazi bj, O., Villalobos Baillie cu, A., Vinogradov c, L., Vinogradov dv, Y., Vinogradov cr, T., Virgili ac, Y. P., Viyogi dw, A., Vodopyanov bk, M. A., Völkl cl, K., Voloshin bc, S. A., Voloshin dz, G., Volpe ah, B., von Haller ah, I., Vorobyev dv, D., Vranic cp, J., Vrláková al, B., Vulpescu bo, A., Vyushin cr, B., Wagner q, J., Wagner cp, V., Wagner ak, M., Wang g, Y., Wang cl, D., Watanabe d, M., Weber dn, J. P., Wessels ay, U., Westerhoff ay, J., Wiechula ag, J., Wikne u, M., Wilde ay, G., Wilk bv, J., Wilkinson cl, M. C. S., Williams cx, B., Windelband cl, M., Winn cl, C., Xiang g, C. G., Yaldo dz, Y., Yamaguchi dr, H., Yang bb, P., Yang g, S., Yang q, S., Yano aq, S., Yasnopolskiy c, J., Yi co, Z., Yin g, I. K., Yoo co, I., Yushmanov c, Zaccolo by, V., C., Zach ak, A., Zaman o, C., Zampolli cx, S., Zaporozhets bk, A., Zarochentsev dv, P., Závada be, N., Zaviyalov cr, H., Zbroszczyk dy, I. S., Zgura bg, M., Zhalov cd, F., Zhang g, H., Zhang g, X., Zhang bo, G, B, Y., Zhangg, C., Zhaou, D., Zhoug, F., Zhoug, Y., Zhoubb, H., Zhug, J., Zhudf, G, J., Zhug, X., Zhug, A., Zichichil, A., Zimmermann cl, M. B., Zimmermann ay, G., Zinovjev c, Y., Zoccarato du, M., Zynovyev c, and M., Zyzak aw

Subjects

Particle ratios, ALICE, High pT, Nuclear modification factor, Identified particle production, Particle ratio, LHC, Baryon anomaly

Abstract

Transverse momentum spectra of π±, K± and p(p ̄) up to pT = 20 GeV/c at mid-rapidity in pp, peripheral (60–80%) and central (0–5%) Pb–Pb collisions at √sNN = 2.76 TeV have been measured using the ALICE detector at the Large Hadron Collider. The proton-to-pion and the kaon-to-pion ratios both show a distinct peak at pT ≈ 3 GeV/c in central Pb–Pb collisions. Below the peak, pT < 3 GeV/c, both ratios are in good agreement with hydrodynamical calculations, suggesting that the peak itself is dominantly the result of radial flow rather than anomalous hadronization processes. For pT > 10 GeV/c particle ratios in pp and Pb–Pb collisions are in agreement and the nuclear modification factors for π±, K± and p(p ̄) indicate that, within the systematic and statistical uncertainties, the suppression is the same. This suggests that the chemical composition of leading particles from jets in the medium is similar to that of vacuum jets.

Published

2014

8. Horizontal head impulse test detects gentamicin vestibulotoxicity

Author

Weber, K. P., primary, Aw, S. T., additional, Todd, M. J., additional, McGarvie, L. A., additional, Curthoys, I. S., additional, and Halmagyi, G. M., additional

Published

2009

9. Gentamicin vestibulotoxicity impairs human electrically evoked vestibulo-ocular reflex

Author

Aw, S. T., primary, Todd, M. J., additional, Aw, G. E., additional, Weber, K. P., additional, and Halmagyi, G. M., additional

Published

2008

10. Vestibular, saccadic and fixation abnormalities in genetically confirmed Friedreich ataxia

Author

Fahey, M. C., primary, Cremer, P. D., additional, Aw, S. T., additional, Millist, L., additional, Todd, M. J., additional, White, O. B., additional, Halmagyi, M., additional, Corben, L. A., additional, Collins, V., additional, Churchyard, A. J., additional, Tan, K., additional, Kowal, L., additional, and Delatycki, M. B., additional

Published

2008

11. Head impulse test in unilateral vestibular loss: Vestibulo-ocular reflex and catch-up saccades

Author

Weber, K. P., primary, Aw, S. T., additional, Todd, M. J., additional, McGarvie, L. A., additional, Curthoys, I. S., additional, and Halmagyi, G. M., additional

Published

2008

12. Click-evoked vestibulo-ocular reflex

Author

Aw, S. T., primary, Todd, M. J., additional, Aw, G. E., additional, Magnussen, J. S., additional, Curthoys, I. S., additional, and Halmagyi, G. M., additional

Published

2006

13. Benign positional nystagmus: A study of its three-dimensional spatio-temporal characteristics

Author

Aw, S. T., primary, Todd, M. J., additional, Aw, G. E., additional, McGarvie, L. A., additional, and Halmagyi, G. M., additional

Published

2005

14. The click-evoked vestibulo-ocular reflex in superior semicircular canal dehiscence

Author

Halmagyi, G.M., primary, McGarvie, L. A., additional, Aw, S. T., additional, Yavor, R. A., additional, and Todd, M. J., additional

Published

2003

15. Effects of Unilateral Vestibular Deafferentation on the Linear Vestibulo-Ocular Reflex Evoked by Impulsive Eccentric Roll Rotation

Author

Aw, S. T., primary, Todd, M. J., additional, McGarvie, L. A., additional, Migliaccio, A. A., additional, and Halmagyi, G. M., additional

Published

2003

16. Individual semicircular canal function in superior and inferior vestibular neuritis

Author

Aw, S. T., primary, Fetter, M., additional, Cremer, P. D., additional, Karlberg, M., additional, and Halmagyi, G. M., additional

Published

2001

17. Three-dimensional vector analysis of the human vestibuloocular reflex in response to high-acceleration head rotations. II. responses in subjects with unilateral vestibular loss and selective semicircular canal occlusion

Author

Aw, S. T., primary, Halmagyi, G. M., additional, Haslwanter, T., additional, Curthoys, I. S., additional, Yavor, R. A., additional, and Todd, M. J., additional

Published

1996

18. Three-dimensional vector analysis of the human vestibuloocular reflex in response to high-acceleration head rotations. I. Responses in normal subjects

Author

Aw, S. T., primary, Haslwanter, T., additional, Halmagyi, G. M., additional, Curthoys, I. S., additional, Yavor, R. A., additional, and Todd, M. J., additional

Published

1996

19. The Effect of Unilateral Posterior Semicircular Canal Inactivation on the Human Vestibulo-Ocular Reflex

Author

Aw, S. T., primary, Halmagyi, G. M., additional, Pohl, D. V., additional, Curthoys, I. S., additional, Yavor, R. A., additional, and Todd, M. J., additional

Published

1995

20. Jerk-waveform see-saw nystagmus due to unilateral meso-diencephalic lesion

Author

Halmagy, G. M., primary, Aw, S. T., additional, Dehaene, I., additional, Curthoys, I. S., additional, and Todd, M. J., additional

Published

1994

21. The Human Vertical Vestibuloocular Reflex in Response to High-Acceleration Stimulation after Unilateral Vestibular Neurectomy

Author

HALMAGYI, G. M., primary, AW, S. T., additional, CREMER, P. D., additional, TODD, M. J., additional, and CURTHOYS, I. S., additional

Published

1992

22. Contribution of the Vertical Semicircular Canals to the Caloric Nystagmus.

Author

Aw, S. T., Haslwanter, T., Fetter, M., Heimberger, J., and Todd, M. J.

Subjects

*NYSTAGMUS, *SEMICIRCULAR canals

Abstract

Modulation of the caloric nystagmus in response to repositioning the plane of one vertical semicircular canal from gravitational horizontal to vertical during continuous caloric stimulation was used to measure the vertical canal's contribution to the nystagmus. The rationale was to examine the thermovective response from one vertical canal at a time, after a temperature gradient had been established across its two limbs. The nystagmus was measured and analysed in three dimensions using orthogonal head-referenced coordinates. The magnitude of each semicircular canal's contribution to the overall caloric response, the canal vector, was determined in non-orthogonal, contravariant semicircular canal plane coordinates. By using the canal plane reorientation technique and contravariant canal plane coordinates, we were able to measure the proportional thermovective response magnitude generated by each vertical canal during caloric stimulation. We found that the anterior canal contributed about one-third and the posterior canal about one-tenth as much as the lateral canal did to the overall caloric response magnitude when it was reoriented from horizontal to vertical. Comparison of the eye rotation axis before and after each vertical canal plane reorientation, with the geometry of the stimulated semicircular canals, also showed directional modulation of the caloric nystagmus by the vertical canal response. When one vertical canal plane was horizontal during caloric stimulation, the eye rotation axis aligned with the resultant of the other vertical canal and the lateral canal response axes. After vertical canal plane reorientation, the eye rotation axis realigned towards the resultant of the maximally stimulated vertical canal and the lateral canal, by 55.2±33.9° (mean±SD) after anterior canal plane reorientation and by 32.3±21.2° after posterior canal reorientation. [ABSTRACT FROM AUTHOR]

Published

1998

23. The Human Vertical Vestibuloocular Reflex in Response to High-Acceleration Stimulation after Unilateral Vestibular Neurectomya.

Author

HALMAGYI, G. M., AW, S. T., CREMER, P. D., TODD, M. J., and CURTHOYS, I. S.

Published

1992

24. Benign positional nystagmus

Author

Aw, S T., Todd, M J., Aw, G E., McGarvie, L A., and Halmagyi, G M.

Abstract

To describe the spatial and temporal characteristics of benign positional nystagmus (BPN) subtypes in benign positional vertigo (BPV) due to vestibular lithiasis affecting one or more semicircular canals (SCCs).

Published

2005

25. Click-evoked vestibulo-ocular reflex distinguishes posterior from superior canal dehiscence.

Author

Aw ST, Welgampola MS, Bradshaw AP, Todd MJ, Magnussen JS, and Halmagyi GM

Subjects

Acoustic Stimulation, Adult, Humans, Male, Reflex, Vestibulo-Ocular physiology, Semicircular Canals physiopathology, Vestibular Diseases diagnosis

Published

2010

26. The effects of galvanic stimulation on the human vestibulo-ocular reflex.

Author

Karlberg M, McGarvie L, Magnusson M, Aw ST, and Halmagyi GM

Subjects

Acceleration, Adult, Electric Stimulation, Electrodes, Eye Movements physiology, Head Movements physiology, Humans, Male, Nystagmus, Physiologic physiology, Rotation, Reflex, Vestibulo-Ocular physiology

Abstract

We studied the effects of 5 mA bilateral or unilateral, bipolar or monopolar, galvanic stimulation on the horizontal vestibulo-ocular reflex (hVOR) in six normal subjects during 0.01, 0.05, 0.1, 0.5 and 1 Hz yaw rotations and in two subjects during high-acceleration, low-amplitude yaw head rotations (head impulses). Bipolar galvanic stimulation induced horizontal nystagmus in all subjects and an asymmetry of the hVOR only during rotations below 0.1 Hz. Monopolar stimulation had no significant effect. The findings suggest that in humans galvanic stimulation affects those primary horizontal semicircular canal neurons that mediate the hVOR via indirect pathways through the velocity storage mechanism.

Published

2000

27. Three-dimensional spatial characteristics of caloric nystagmus.

Author

Aw ST, Haslwanter T, Fetter M, and Dichgans J

Subjects

Adult, Air, Eye Movements, Functional Laterality, Humans, Posture physiology, Rotation, Time Factors, Hot Temperature, Nystagmus, Pathologic etiology, Semicircular Canals physiology

Abstract

We investigated the three-dimensional spatial characteristics of caloric nystagmus during excitation and inhibition of the lateral semicircular canal in five normal human subjects. Each subject was repositioned in 45 degrees steps at 1-min intervals such that the right lateral semicircular canal plane was reoriented in pitch, from 135 degrees backwards from the upright position to 135 degrees forwards, while the right ear was continuously stimulated with air at 44 degrees C. In orientations in which caloric stimulus resulted in excitation of the right lateral semicircular canal, the eye velocity axis was orthogonal to the average orientation of the right lateral semicircular canal plane. However, in orientations in which caloric stimulus resulted in inhibition of the right lateral semicircular canal, the eye velocity axis was orthogonal to the average orientation of the left and not the right lateral semicircular canal plane. These findings suggest that velocity and direction of caloric nystagmus depend not only on the absolute magnitude of vestibular activity on the stimulated side but also on the differences in activity between the left and right vestibular nuclei, most probably mediated centrally via brainstem commissural pathways.

Published

2000

28. Vertical eye position-dependence of the human vestibuloocular reflex during passive and active yaw head rotations.

Author

Thurtell MJ, Black RA, Halmagyi GM, Curthoys IS, and Aw ST

Subjects

Acceleration, Adaptation, Physiological physiology, Adult, Humans, Middle Aged, Rotation, Eye Movements physiology, Head physiology, Motion, Movement physiology, Reflex, Vestibulo-Ocular physiology

Abstract

Vertical eye position-dependence of the human vestibuloocular reflex during passive and active yaw head rotations. The effect of vertical eye-in-head position on the compensatory eye rotation response to passive and active high acceleration yaw head rotations was examined in eight normal human subjects. The stimuli consisted of brief, low amplitude (15-25 degrees ), high acceleration (4,000-6,000 degrees /s2) yaw head rotations with respect to the trunk (peak velocity was 150-350 degrees /s). Eye and head rotations were recorded in three-dimensional space using the magnetic search coil technique. The input-output kinematics of the three-dimensional vestibuloocular reflex (VOR) were assessed by finding the difference between the inverted eye velocity vector and the head velocity vector (both referenced to a head-fixed coordinate system) as a time series. During passive head impulses, the head and eye velocity axes aligned well with each other for the first 47 ms after the onset of the stimulus, regardless of vertical eye-in-head position. After the initial 47-ms period, the degree of alignment of the eye and head velocity axes was modulated by vertical eye-in-head position. When fixation was on a target 20 degrees up, the eye and head velocity axes remained well aligned with each other. However, when fixation was on targets at 0 and 20 degrees down, the eye velocity axis tilted forward relative to the head velocity axis. During active head impulses, the axis tilt became apparent within 5 ms of the onset of the stimulus. When fixation was on a target at 0 degrees, the velocity axes remained well aligned with each other. When fixation was on a target 20 degrees up, the eye velocity axis tilted backward, when fixation was on a target 20 degrees down, the eye velocity axis tilted forward. The findings show that the VOR compensates very well for head motion in the early part of the response to unpredictable high acceleration stimuli-the eye position- dependence of the VOR does not become apparent until 47 ms after the onset of the stimulus. In contrast, the response to active high acceleration stimuli shows eye position-dependence from within 5 ms of the onset of the stimulus. A model using a VOR-Listing's law compromise strategy did not accurately predict the patterns observed in the data, raising questions about how the eye position-dependence of the VOR is generated. We suggest, in view of recent findings, that the phenomenon could arise due to the effects of fibromuscular pulleys on the functional pulling directions of the rectus muscles.

Published

1999

29. Head impulses reveal loss of individual semicircular canal function.

Author

Aw ST, Halmagyi GM, Black RA, Curthoys IS, Yavor RA, and Todd MJ

Subjects

Adult, Aged, Humans, Labyrinth Diseases physiopathology, Middle Aged, Head Movements, Labyrinth Diseases diagnosis, Reflex, Vestibulo-Ocular physiology, Semicircular Canals physiopathology

Abstract

We studied individual semicircular canal responses in three dimensions to high-acceleration head rotations ("head impulses") in subjects with known surgical lesions of the semicircular canals, and compared their results to those of normal subjects. We found that vestibular-ocular reflex (VOR) gains at close to peak head velocity in response to yaw, pitch and roll impulses were reliable indicators of semicircular canal function. When compared to normals, lateral canal function showed a 70-80% decrease in VOR gain at peak of yaw head velocity during ipsilesional yaw impulses. After the loss of one vertical canal function there was a 30-50% decrease in vertical and torsional VOR gain in response to ipsilesional pitch and roll impulses respectively. Bilateral deficits in anterior or posterior canal function resulted in a 80-90% decrease in vertical VOR gain during ipsilesional pitch impulses, while the loss of ipsilateral anterior and posterior canal functions will result in a 80-90% decrease in torsional VOR gain in response to ipsilesional roll impulses. Three-dimensional vector analysis and animation of the VOR responses in a unilateral vestibular deafferented subject to yaw, pitch and roll impulses further demonstrated the deficits in magnitude and direction of the VOR responses following the loss of unilateral lateral, anterior and posterior canal functions.

Published

1999

30. Semicircular canal plane head impulses detect absent function of individual semicircular canals.

Author

Cremer PD, Halmagyi GM, Aw ST, Curthoys IS, McGarvie LA, Todd MJ, Black RA, and Hannigan IP

Subjects

Adult, Calibration, Functional Laterality, Humans, Middle Aged, Reference Values, Semicircular Canals diagnostic imaging, Temporal Bone diagnostic imaging, Tomography, X-Ray Computed methods, Eye Movements physiology, Head Movements physiology, Reflex, Vestibulo-Ocular physiology, Semicircular Canals physiology, Semicircular Canals surgery, Vestibular Nerve surgery

Abstract

We studied the human vestibulo-ocular reflex (VOR) in response to head 'impulses': brief, unpredictable, passive, high-acceleration (up to 4000 degrees/s2), low-amplitude (20-30 degrees) head rotations. We delivered the head impulses approximately in the plane of the semicircular canal (SCC) being tested. To test the anterior and posterior SCCs, the head impulses were delivered in a diagonal plane, midway between the frontal (roll) and sagittal (pitch) planes. We recorded head and eye position in three dimensions with scleral search coils in nine normal subjects, seven patients following unilateral surgical vestibular neurectomy and three patients following unilateral posterior SCC occlusion. In the post-surgical patients we demonstrated a severe, permanent VOR gain deficit (0.2-0.3) for head impulses directed toward any single non-functioning SCC. The sensitivity of the test depends on the physiological properties of primary vestibular afferents, and its specificity depends on the anatomical orientation of the SCCs. The diagonal head impulse is the first test of individual vertical SCC function in humans, and together with the horizontal head impulse, forms a comprehensive battery of SCC-plane tests. These canal-plane impulses could be useful in evaluating patients with vertigo or other vestibular disorders.

Published

1998

31. Jerk-waveform see-saw nystagmus due to unilateral meso-diencephalic lesion.

Author

Halmagyi GM, Aw ST, Dehaene I, Curthoys IS, and Todd MJ

Subjects

Adult, Brain Diseases diagnosis, Female, Functional Laterality, Head, Humans, Male, Middle Aged, Movement, Nystagmus, Pathologic diagnosis, Pons physiopathology, Posture, Tegmentum Mesencephali physiopathology, Torsion Abnormality, Brain Diseases complications, Brain Diseases physiopathology, Diencephalon physiopathology, Mesencephalon physiopathology, Nystagmus, Pathologic etiology, Nystagmus, Pathologic physiopathology

Abstract

See-saw nystagmus is an uncommon but highly characteristic eye movement disorder comprising intorsion and elevation of one eye, with synchronous extorsion and depression of the other. It generally has a pendular waveform and is due to a midline, extrinsic, suprasellar mass lesion compressing or invading the brainstem bilaterally at the meso-diencephalic junction. This report deals with the clinical and MRI findings in three patients (and binocular three-dimensional quantitative oculographic findings in one patient) with a jerk waveform see-saw nystagmus due in each case to a unilateral meso-diencephalic lesion. In each patient the torsional component of the nystagmus fast phases rotated the upper poles of the eyes toward the side of the lesion. Jerk see-saw nystagmus can be clinically indistinguishable from pendular see-saw nystagmus and from the torsional-vertical nystagmus which occurs with medullary lesions. We propose that jerk see-saw nystagmus is due to unilateral inactivation of the torsional eye-velocity integrator, thought to be in the interstitial nucleus of Cajal, with sparing of the torsional fast-phase generator, thought to be in the adjacent rostral interstitial nucleus of the medial longitudinal fasciculus.

Published

1994

32. Age-related changes in human smooth pursuit responses to horizontal step-ramp target trajectories.

Author

Curthoys IS, Wearne SL, Staples MS, Aw ST, Todd MJ, and Halmagyi GM

Subjects

Brain Damage, Chronic physiopathology, Humans, Middle Aged, Reference Values, Saccades, Visual Cortex physiopathology, Aging physiology, Eye Movements, Visual Cortex physiology

Published

1992