Search

Your search keyword '"Zhu, G.-J."' showing total 79 results
Start Over Author "Zhu, G.-J."
79 results on '"Zhu, G.-J."'

6. Effect of sequential vs. non-sequential early enteral nutrition therapy on nutritional status, recovery, and quality of life of patients with esophageal cancer.

Author

SONG, H.-X., WEI, S.-H., AN, G.-H., ZHU, G.-J., and ZHU, X.-K.

Abstract

OBJECTIVE: To study the effects of early sequential enteral nutrition (ESEN) therapy and early non-sequential enteral nutrition (EN) therapy on the nutritional status, recovery, and quality of life of patients who undergo postoperative chemotherapy for esophageal cancer. PATIENTS AND METHODS: The data of 90 patients who underwent postoperative chemotherapy for esophageal cancer in Gansu Provincial Cancer Hospital from January 2018 to June 2020 were analyzed retrospectively. Patients were divided the Test group and the Control group (n=45 each) based on the method of nutritional support. Patients in the Control group were treated with non-sequential early enteral nutrition and the Test group treated with sequential early enteral nutrition until the discharge. Nutritional status, recovery, and quality of life of the chemotherapy patients in the two groups were compared. RESULTS: After the intervention, the pre-protein, albumin and hemoglobin levels were higher in the Test group than in the control group (p<0.05). Postoperative exhaustion, incision healing and length of hospital stay were significantly lower in the Test group than in the Control group (p<0.05), while the scores on all dimensions of the short-form 36 health survey scale (SF-36) and the total score were higher than in the Control group (p<0.05). CONCLUSIONS: Sequential early enteral nutrition may be used for patients who undergo chemotherapy after esophageal cancer surgery to promote their early recovery and improve their quality of life and nutritional status. [ABSTRACT FROM AUTHOR]

Published
2023

14. HMGN5 promotes invasion and migration of colorectal cancer through activating FGF/FGFR pathway.

Author

ZHU, G.-J., LIU, F., XU, Y.-G., ZHAO, C.-X., ZHAO, J.-G., and SUN, C.

Abstract

OBJECTIVE: To detect the expression of high-mobility group nucleosome-binding domain 5 (HMGN5) in colorectal cancer tissues, to explore the function of HMGN5 on the proliferation and metastasis of colorectal cancer cells, and to further study the molecular mechanism of HMGN5 in the malignant progression of colorectal cancer (CRC). PATIENTS AND METHODS: The cancer tissues and para-carcinoma tissues were harvested from 40 patients with CRC. The expression of HMGN5 was detected via quantitative real-time polymerase chain reaction (qRT-PCR), and the relation between HMGN5 and clinical indexes of CRC patients was further analyzed. The CRC HT29 and HCT116 cell lines with high expression levels of HMGN5 were selected, and the HMGN5 knockdown model was established. The functions of HMGN5 on CRC cells were stated by cell counting kit-8 (CCK-8) assay and transwell migration assay. Then, the association between HMGN5 and fibroblast growth factor 12 (FGF12) was further explored via Dual-Luciferase reporter assay and reverse assay. RESULTS: The qRT-PCR showed that HMGN5 expression was significantly rising in cancer tissues compared to the control group. The incidence rate of lymph node metastasis and distant metastasis was higher in higher expression HMGN5 group than the lower expression HMGN5 group. The results of cell function experiments revealed that silence of HMGN5 could suppress the proliferation and migration of HT29 and HCT116. In addition, it was found using qRTPCR that knockdown of HMGN5 could significantly down-regulate the expressions of FGF12, FGFR, PI3K and AKT in HT29 and HCT116 cells. The targeted binding relation between HMGN5 and FGF12 was also indicated by the dual-luciferase reporter assay. The consequence of qRTPCR manifested that FGF12 expression markedly rose in CRC tissues, which had a positive correlation with HMGN5. Moreover, reverse assay indicated that the inhibitory effect of HMGN5 knockdown on the malignant progression of CRC could be reversed by recombinant FGF12, indicating once again that there is a mutual regulatory effect between HMGN5 and FGF12. CONCLUSIONS: HMGN5 can increase the proliferative and migrative capacity of CRC cells via targeted binding to FGF12. In addition, clinical data analyses demonstrate that HMGN5 is intimately related to the incidence rate of lymph node metastasis and distant metastasis in patients with CRC. [ABSTRACT FROM AUTHOR]

Published
2021

15. The variable polarity plasma arc welding process: Characteristics and performance

Author

Hung, R. J and Zhu, G. J

Subjects
Mechanical Engineering
Abstract

Significant advantages of the Variable Polarity Plasma Arc (VPPA) Welding Process include faster welding, fewer repairs, less joint preparation, reduced weldment distortion, and absence of porosity. The power distribution was analyzed for an argon plasma gas flow constituting the fluid in the VPPA Welding Process. The major heat loss at the torch nozzle is convective heat transfer; in the space between the outlet of the nozzle and the workpiece; radiative heat transfer; and in the keyhole in the workpiece, convective heat transfer. The power absorbed at the workpiece produces the molten puddle that solidifies into the weld bead. Crown and root widths, and crown and root heights of the weld bead are predicted. The basis is provided for an algorithm for automatic control of VPPA welding machine parameters to obtain desired weld bead dimensions.

Published
1991

20. Centrality, rapidity and transverse momentum dependence of J/ψ suppression in Pb–Pb collisions at √sNN = 2.76 TeV

Author

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

Subjects
Relativistic heavy ion collisions, Quarkonium, J/ψ suppression, Quark gluon plasma, Experimental results, Relativistic heavy ion collision
Abstract

The inclusive J/ψ nuclear modification factor (RAA) in Pb–Pb collisions at √sNN = 2.76 TeV has been measured by ALICE as a function of centrality in the e+e− decay channel at mid-rapidity (|y| < 0.8) and as a function of centrality, transverse momentum and rapidity in the μ+μ− decay channel at forward-rapidity (2.5 < y < 4). The J/ψ yields measured in Pb–Pb are suppressed compared to those in pp collisions scaled by the number of binary collisions. The RAA integrated over a centrality range corresponding to 90% of the inelastic Pb–Pb cross section is 0.72±0.06(stat.)±0.10(syst.) at mid-rapidity and 0.58 ± 0.01(stat.) ± 0.09(syst.) at forward-rapidity. At low transverse momentum, significantly larger values of RAA are measured at forward-rapidity compared to measurements at lower energy. These features suggest that a contribution to the J/ψ yield originates from charm quark (re)combination in the deconfined partonic medium.

Published
2014

32. [Exploring the factors affecting music-related quality of life in post-lingual deaf adults with cochlear implants].

Author

Yang Y, Qian XY, Geng LG, Jiang YF, Gao JY, Huang L, Li A, Zhao N, Xu YQ, Zhu GJ, and Gao X

Subjects
Adult, Female, Male, Humans, Quality of Life, Cross-Sectional Studies, Cochlear Implants, Cochlear Implantation, Music
Abstract

Objective: To observe the feelings of listening to music and the importance of music in the daily life of post-lingual deaf adults with cochlear implants, and to explore the relevant influencing factors. Methods: This was a cross-sectional survey study. From January 2021 to August 2021,the Music-Related Quality of Life Scale was used to evaluate the music needs and music experiences of 63 post-lingual deaf adults who met the inclusion criteria, including 27 males and 36 females, aged (40.7±12.3) years, at the time of surgery (36.8±13.1) years, and with a preoperative hearing aid ineffective time of (3.9±5.8) years. Indicators analyzed included age, duration of ineffective preoperative hearing aid wear, preoperative music preference, duration of postoperative cochlear implant use, current hearing aid modality, and auditory rehabilitation outcomes. Whether the six factors mentioned above constituted an influence on the subjects' music listening was investigated using SPSS 25.0 statistical software. Results: All of the observations in the scale were correlated with a single factor. The two sub-dimensions of music experience section were related to the effect of auditory rehabilitation. In the importance section, the effect of auditory rehabilitation was the influential factor of the dimension of "participation importance", and the preoperative enjoyment of music was the relevant influential factor of the dimension of "perceived importance". There was a significant difference between the groups when they were grouped by the above factors ( P value<0.05), while there was no statistically significance between the groups when they were grouped by other factors ( P value>0.05). Conclusions: Post-lingual deaf adults show the need and attempt to listen to music after cochlear implantation. The effectiveness of auditory rehabilitation and the degree of music preference preoperatively are two important factors that influence music listening in implant recipients. Once the level of auditory communication has been restored to a certain degree, it is important to pay more attention to the needs of music for implant recipients and train them in time, especially for those with music preferences preoperatively.

Published
2024
Full Text
View/download PDF

34. I-level positive airway pressure ventilation for patients with hypoxemia after coronary artery bypass grafting.

Author

Cai WW, Hu J, Wang H, Zhu GJ, Chen S, and Chen XP

Subjects
Coronary Artery Disease surgery, Humans, Oxygen, Treatment Outcome, Coronary Artery Bypass, Hypoxia therapy, Positive-Pressure Respiration
Abstract

Coronary artery bypass grafting (CABG) is an effective scheme for treatment of myocardial ischemia. Hypoxemia is a common complication of CABG, which can affect surgical effect and prognosis and even induce multiple organ failure. To explore the clinical efficacy of bi-level positive airway pressure ventilation in the treatment of CABG-associated hypoxemia, 216 patients who were admitted to our hospital between August 2015 and April 2017 and developed CABG-associated hypoxemia were selected and randomly divided into 2 groups, an observation group (n=108) and a control group (n=108). Patients in the control group were given conventional treatment including continuous oxygen inhalation through nasal tube, anti-infection, bronchodilation, phlegm resolving, nutrition support, analgesia, cardiac function maintenance, coronary dilatation, anticoagulation and maintenance of stable internal environment, while patients in the observation group were given positive airway pressure ventilation via a breathing machine or nasal mask besides the conventional treatment.

Published
2019

35. [The application of short stent in root of aorta for the treatment of Stanford type A aortic dissection].

Author

Chen XP, Zhao YP, Ye YF, Chen S, Zhu GJ, and Hu J

Subjects
Adult, Aged, Aorta, Aorta, Thoracic, Aortic Aneurysm, Female, Humans, Male, Middle Aged, Treatment Outcome, Young Adult, Aortic Dissection surgery, Aortic Aneurysm, Thoracic surgery, Blood Vessel Prosthesis Implantation, Stents
Abstract

Objective: To explore the effect of implanting short stent in root of aorta for the treatment of Stanford type A aortic dissection. Methods: Clinical data of 39 patients with Stanford type A aortic dissection who underwent surgical procedure at the Department of Cardiovascular Surgery of Luoyang Central Hospital Affiliated to Zhengzhou University, between January 2013 and December 2015 were retrospectively analyzed. There were 31 males and 8 females aged 27 to 75 (49.3±10.3) years. All patients received short stent implanting in aortic root, total arch replacement and stented elephant trunk implantation were performed at the same time. Results: All the operations were successfully performed. Two patients died during hospitalization. Four patients underwent reexploration for postoperative bleeding. Postoperative mortality was 5.1%(2/39). Follow-up duration was 3 to 24 months, with a median time of 14 months. One patient died of lung infection, gastrointestinal bleeding and renal faliure during follow-up. Conclusion: Patients with aortic intimal tear located at higher root of aorta may be suitable for short stent implanting, and the procedure has satisfactory clinical outcomes.

Published
2017
Full Text
View/download PDF

36. [Identification of a novel mutation of SLC26A4 gene with enlarged vestibular aqueduct syndrome].

Author

Chen J, Shi LS, Zhou H, Zhu GJ, Ma DB, Li JY, and Gao X

Subjects
Humans, Male, Sulfate Transporters, Hearing Loss, Sensorineural genetics, Membrane Transport Proteins genetics, Mutation, Vestibular Aqueduct abnormalities
Abstract

Objective: To explore the mutation spectrum of SLC26A4 in Chinese patients with enlarged vestibular aqueduct syndrome. Method: Genomic DNA samples were extracted from peripheral blood of the cochlear implant recipients associated with enlarged vestibular aqueduct syndrome. The SLC26A4 mutations were analyzed by direct sequencing. Result: A novel missense mutation(347G>A) of SLC26A4 gene was found in a male patient,which led to a substitution of codon 116 from glycine to asparagic acid. This mutation was not observed among 60 normal controls. Conclusion: The 347G>A of SLC26A4 gene was a novel pathologic mutation,contributing to the mutation spectrum of SLC26A4 of enlarged vestibular aqueduct syndrome., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose., (Copyright© by the Editorial Department of Journal of Clinical Otorhinolaryngology Head and Neck Surgery.)

Published
2017
Full Text
View/download PDF

37. A retrospective analysis of ovarian stimulation with letrozole in women undergoing artificial insemination by donor.

Author

Sun XJ, Jiang L, Ji LC, Nie R, Chen H, Jin L, Zhu GJ, and Qian K

Subjects
Aromatase Inhibitors administration & dosage, Aromatase Inhibitors adverse effects, Estradiol blood, Female, Gonadotropins administration & dosage, Gonadotropins adverse effects, Humans, Letrozole, Logistic Models, Nitriles administration & dosage, Nitriles adverse effects, Ovarian Follicle diagnostic imaging, Pregnancy, Pregnancy Rate, Retrospective Studies, Triazoles administration & dosage, Triazoles adverse effects, Aromatase Inhibitors therapeutic use, Gonadotropins therapeutic use, Insemination, Artificial, Heterologous, Nitriles therapeutic use, Ovulation Induction methods, Triazoles therapeutic use
Abstract

The aim of this retrospective study was to determine the clinical pregnancy rate in women undergoing letrozole ovarian stimulation and artificial insemination by donor (AID). Between 2012 and 2015, 130 natural cycles, 939 letrozole cycles and 130 letrozole plus gonadotrophin cycles were conducted. Letrozole cycles were divided into three groups according to LH concentration on the day of HCG administration (LH <10 mIU/ml and follicle size ≥18 cm; LH ≤10 to <20 mIU/ml; and LH ≥20 mIU/ml). Pregnancy rates were 17.3%, 22.4% and 26.8%, respectively (P = 0.012). In women given 10 mIU/ml LH or more, logistic regression identified oestradiol (OR 1.002, 95% CI, 1.000 to 1.004, P = 0.029) and leading follicle size (OR 0.861, 95% CI, 0.772 to 0.960, P = 0.007) as significant predictive factors of pregnancy rate; the higher the oestradiol and the smaller the follicles, the better the pregnancy rate. The pregnancy rate was significantly higher in the letrozole plus gonadotrophin group than the letrozole group (P = 0.04). Better pregnancy rates can be achieved if LH surge occurs before HCG administration, especially with higher oestradiol and lower follicle size; treatment with letrozole plus gonadotrophin was significantly more effective than letrozole alone in AID., (Copyright © 2017 Reproductive Healthcare Ltd. Published by Elsevier Ltd. All rights reserved.)

Published
2017
Full Text
View/download PDF

38. Comparative analysis of bilirubin in correlation to albumin between nephrotic syndrome patients and postoperative gastroparesis syndrome patients.

Author

Song MH, Zhu GJ, Ma L, Chen GL, Yang D, Gong JH, Xie YX, Yan Y, and Wang MC

Subjects
Adult, Case-Control Studies, Female, Humans, Male, Proteinuria blood, Bilirubin blood, Gastroparesis blood, Nephrotic Syndrome blood, Postoperative Complications etiology, Serum Albumin metabolism
Abstract

This study aimed to disclose the potential causality of low bilirubin in patients with nephrotic syndrome (NS). Correlation analysis was carried out on total bilirubin (TBIL) to serum albumin (ALB), urine protein (Upr), and urinary microalbumin/creatinine (Umalb/cr) for three groups in a case-control study. P < 0.001 was observed for TBIL, ALB, Umalb/cr, and Upr between the NS and chronic nephritis (CN) groups, and P values of 0.0001, 1.000, 0.0001, and 0.0001 were observed for TBIL, ALB, Umalb/cr, and Upr, respectively, between the postoperative gastroparesis (PGS) and CN groups. The values of r and P in correlation to TBIL were 0.549 and 0.000 for ALB, -0.405 and 0.000 for Umalb/cr, and -0.448 and 0.000 for Upr in the NS group; -0.007 and 0.959 for ALB, 0.213 and 0.091 for Umalb/cr, and -0.082 and 0.519 for Upr in the PGS group; and 0.509 and 0.000 for ALB, -0.431 and 0.000 for Umalb/cr, and -0.362 and 0.002 for Upr in the CN group. A probable causality is implied between the low level of blood bilirubin and its loss in urine in NS patients. This conclusion may provide a theoretical basis for the feasibility of therapies against oxidative stress in NS patients.

Published
2014
Full Text
View/download PDF

39. Assessment of low quantitative ultrasound values of calcaneus in Chinese mainland women.

Author

Liu W, Xu ChL, Zhu ZQ, Han ShM, Zu ShY, and Zhu GJ

Subjects
Adolescent, Adult, Age Factors, Aged, Aged, 80 and over, Asian People, Bone Density, Child, China, Female, Humans, Middle Aged, Osteoporosis diagnostic imaging, Ultrasonography, Calcaneus diagnostic imaging
Abstract

Calcaneus quantitative ultrasound (QUS) assessment is a safe and reliable method for evaluating skeletal status. Until now, considerable data have been accumulated on the distribution of QUS in Caucasian populations, whereas such data are still insufficient in Asian populations, especially in Chinese mainland. The present study aimed to obtain the distribution characteristic of calcaneus QUS in healthy Chinese women, and to further investigate the distribution of low bone mass by QUS stiffness index (SI). This study included 2,498 healthy Chinese females aged 10-87 yr. The QUS exhibited a characteristic mild rise and then fall pattern with increasing age. Age, body height, and weight were significant influencing factors on SI, especially age and weight. The prevalence of osteoporosis detected using instrument-derived T-score or internal T-score was different from that calculated according to calcaneus bone mass density (BMD) previously reported. Furthermore, between instrument-derived T-scores and internal T-scores, there were also significant differences. We concluded that the World Health Organization criteria from BMD may not be appropriate for QUS, and the instrument-derived T-score may also not be appropriate for the studied population. The results will be useful for predicting fracture risk of Chinese women and determining diagnostic criteria of osteoporosis by QUS.

Published
2006
Full Text
View/download PDF

40. Cloning of UGT1A9 cDNA from liver tissues and its expression in CHL cells.

Author

Li X, Yu YN, Zhu GJ, and Qian YL

Subjects
Animals, Cell Line, Cricetinae, Cricetulus, Humans, Molecular Sequence Data, UDP-Glucuronosyltransferase 1A9, Cloning, Molecular, DNA, Complementary genetics, DNA, Complementary metabolism, Gene Expression, Glucuronosyltransferase genetics, Liver metabolism
Abstract

Aim: To clone the cDNA of UGT1A9 from a Chinese human liver and establish the Chinese hamster lung (CHL) cell line expressing human UGT1A9., Methods: cDNA of UGT1 A9 was transcripted from mRNA by reverse transcriptase-ploymerase chain reaction, and was cloned into the pGEM-T vector which was amplified in the host bacteric E.Coli DH5(alpha). The inserted fragment, verified by DNA sequencing, was subcloned into the Hind III /Not I site of a mammalian expression vector pREP9 to construct the plasmid termed pREP9-UGT1A9. CHL cells were transfected with the resultant recombinants, pREP9-UGT1A9, and selected by G418 (400 mg x L(-1)) for one month. The surviving clone (CHL-UGT1A9) was harvested as a pool and sub-cultured in medium containing G418 to obtain samples forUGT1A9 assays. The enzyme activity of CHL-UGT1A9 towards propranolol in S9 protein of the cell was determined by HPLC., Results: The sequence of the cDNA segment cloned, which was 1666 bp in length, was identical to that released by Gene Bank (GenBank accession number: AF056188) in coding region. The recombinant constructed, pREP9-UGT1A9, contains the entire coding region, along with 18 bp of the 5' and 55 bp of the 3' untranslated region of theUGT1A9 cDNA, respectively. The cell lines established expressed the protein of UGT1A9, and the enzyme activity towards propranolol in S9 protein was found to be 101+/- 24 pmol x min(-1) x mg(-1) protein (n=3), but was not detectable in parental CHL cells., Conclusion: The cDNA of UGT1A9 was successfully cloned from a Chinese human liver and transfected into CHL cells. The CHL-UGT1 A9 cell lines established efficiently expressed the protein ofUGT1A9 for the further enzyme study of drug glucuronidation.

Published
2001
Full Text
View/download PDF

41. [Diagnosis and treatment of cornual obstruction by transcervical fallopian tube cannulation under hysteroscopy].

Author

Zhu GJ, Luo LL, and Lin H

Subjects
Adult, Constriction, Pathologic, Fallopian Tube Patency Tests, Female, Humans, Infertility, Female surgery, Laparoscopy methods, Catheterization methods, Fallopian Tube Diseases diagnosis, Fallopian Tube Diseases surgery, Hysteroscopy
Abstract

Transcervical cannulation of the proximal oviduct was performed with a tube catheter and flexible guidewire under hysteroscopic guidance to evaluate and treat intramural fallopian tube obstruction in 37 patients. Hysteroscopic cannulation with direct visualization by laparoscopy was successful in 69.2% of the obstructed tubes, 77.4% of the cases. 74% of the obstructed tubes diagnosed by HSG and/or laparoscopy was patent after hydrotubation and cannulation by hysteroscopy. Transcervical cannulation of the proximal oviduct is an effective method for evaluation and treatment of cornual obstruction.

Published
1994

42. [Dynamic changes in fibrinolytic system in patients with acute myocardial infarction].

Author

Zhang SY, Jin L, and Zhu GJ

Subjects
Adult, Aged, Angina, Unstable blood, Female, Humans, Male, Middle Aged, Myocardial Infarction blood, Plasminogen Inactivators blood, Tissue Plasminogen Activator blood
Abstract

Dynamic change of serum tissue-type plasminogen, activator (t-PA) and PAI activity was studied in 22 cases with acute myocardial infarction (AMI) 11 cases with unstable angina (UA) and 24 healthy persons. The group of AMI was divided into two subgroups, one with severe complications, AMI-A subgroup and the other without complication, AMI-B subgroup. The results revealed: t-PA activity was decreased in AMI group, especially in AMI-A subgroup; PAI activity was markedly increased in AMI-A subgroup in first three days after onset; there was a marked decrease of active type in AMI-A subgroup. The study confirms that the function of fibrinolytic system is abnormal in patients with AMI and UA. The change of activity of t-PA and PAI is closely related with the severity of AMI. It is important to augment the activity of the fibrinolytic system in the treatment of AMI.

Published
1991

43. [Catecholamines and activation of fibrinolysis].

Author

Zhu GJ

Subjects
Animals, Humans, Receptors, Adrenergic, beta physiology, Tissue Plasminogen Activator physiology, Catecholamines physiology, Fibrinolysis physiology
Published
1991

45. A preliminary study of the inhibiting mechanism of anisodamine on rabbit platelets activated by E. coli endotoxin.

Author

Xu SH, Zhu GJ, Wu QX, and Chen HC

Subjects
Animals, Blood Platelets drug effects, Endotoxins antagonists & inhibitors, Female, Male, Membrane Fluidity drug effects, Rabbits, Escherichia coli, Platelet Aggregation drug effects, Platelet Aggregation Inhibitors, Solanaceous Alkaloids pharmacology
Abstract

In this study, we observed the endotoxin induced platelet aggregation, 5-HT and beta-g releases, cellular cAMP decrease, and also the changes of morphology and membrane fluidity of platelet. These changes play an important role in septic shock, especially in disseminated intravascular coagulation (DIC) and respiratory distress syndrome (RDS). After anisodamine (654) intervention all the parameters mentioned above were improved to a certain extent. This preliminary study of the inhibiting mechanism of 654 on rabbit platelets activated by ET supports the clinical possibility of using 654 for relieving DIC and RDS.

Published
1989

46. The influence of propranolol (beta-receptor blockade) on bronchial smooth muscle relaxation induced by "yi qi huo xue prescription".

Author

Chen XY, Zhu GJ, Zhang HL, Xi PX, and Yan YH

Subjects
Animals, Asthma drug therapy, Bronchi drug effects, Drugs, Chinese Herbal therapeutic use, Guinea Pigs, Muscle Contraction, Drugs, Chinese Herbal pharmacology, Muscle Relaxation drug effects, Muscle, Smooth drug effects, Propranolol pharmacology, Receptors, Adrenergic, beta drug effects
Published
1982

47. [Experimental studies on the beta-g release function of PMNs].

Author

Chen XY, Yan YH, Xi PX, Zhu GJ, and Zhou CF

Subjects
Animals, Complement Activation drug effects, Endotoxins pharmacology, Histamine pharmacology, Metiamide pharmacology, Rats, Glucuronidase metabolism, Lysosomes enzymology, Neutrophils enzymology
Published
1986

49. [Effects of Yiqi-Huoxue drugs on acute hypoxia].

Author

Chen XY, Zhu GJ, Dang Y, Wang LR, and Yan YZ

Subjects
Animals, Brain enzymology, Medicine, Chinese Traditional, Mice, Monoamine Oxidase metabolism, Plant Extracts pharmacology, Rats, Histamine Release drug effects, Hypoxia metabolism, Lung metabolism, Plants, Medicinal
Published
1981

Catalog

Books, media, physical & digital resources
See catalog results