Your search keyword '"Qu, Yanling"' showing total 31 results

1. Natural small molecules synergize mesenchymal stem cells for injury repair in vital organs: a comprehensive review

Author

Qu, Yanling, Wang, Zhe, Dong, Lingjuan, Zhang, Dan, Shang, Fengqing, Li, Afeng, Gao, Yanni, Bai, Qinhua, Liu, Dan, Xie, Xiaodong, and Ming, Leiguo

Published

2024

2. Ebronucimab in Chinese patients with hypercholesterolemia---A randomized double-blind placebo-controlled phase 3 trial to evaluate the efficacy and safety of ebronucimab

Author

Zhang, Yanyan, Pei, Zhaohui, Chen, Beijian, Qu, Yanling, Dong, Xiaolin, Yu, Binge, Wang, Guoqin, Xu, Fang, Lu, Dongmei, He, Zhimei, Chen, Benchao, Ma, Lei, Wang, Max, Li, Baiyong, Xia, Michelle, Zheng, Bo, and Huo, Yong

Published

2024

3. Semi-analytical solution for seismic response of circular lined tunnel in alpine valley composite site

Author

Liang, Yuwang, Zhou, Fengxi, and Qu, Yanling

Published

2024

4. Icosapent ethyl therapy for very high triglyceride levels: a 12-week, multi-center, placebo-controlled, randomized, double-blinded, phase III clinical trial in China

Author

Wang, Zhen, Zhang, Xin, Qu, Yanling, Zhang, Shuyang, Chen, Yundai, Chen, Xiaoping, Qi, Xin, Liu, Peijing, Liu, Shuqin, Jiang, Shan, Man, Ronghai, He, Liping, Wu, Ling, Li, Zhanquan, Shang, Yijun, Qiu, Zhaohui, Liu, Feng, Xu, Chenhong, Lai, Chunlin, and Ge, Junbo

Published

2023

5. Development of a fully automatic damage simulation framework for quasi-brittle materials

Author

Qu, Yanling, Eisenträger, Sascha, Zhang, Zihua, Zhang, Lingxin, and Song, Chongmin

Published

2023

6. Tafolecimab in Chinese patients with non-familial hypercholesterolemia (CREDIT-1): a 48-week randomized, double-blind, placebo-controlled phase 3 trial

Author

Huo, Yong, Chen, Beijian, Lian, Qiufang, Wang, Shuqing, Liu, Lu, Lu, Di, Qu, Yanling, Zheng, Guanzhong, Li, Lipeng, Ji, Yuan, Yin, Guotian, Huang, Wenjun, Xie, Ying, Yang, Xinchun, Gao, Xiufang, An, Pei, Xue, Fengtai, Li, Haoyu, Deng, Huan, Li, Li, Pei, Lijuan, and Qian, Lei

Published

2023

7. A scaled boundary finite element method for soil dynamic impedance of pile groups using hybrid quadtree mesh considering horizontal vibration

Author

Zhang, Junqi, Wang, Piguang, Zhao, Mi, Liu, Lei, Qu, Yanling, and Du, Xiuli

Published

2023

8. Tafolecimab in Chinese Patients With Hypercholesterolemia (CREDIT-4): A Randomized, Double-Blind, Placebo-Controlled Phase 3 Trial

Author

Qi, Litong, Liu, Dexue, Qu, Yanling, Chen, Beijian, Meng, Haiyan, Zhu, Lei, Li, Lipeng, Wang, Shuqing, Liu, Changyi, Zheng, Guanzhong, Lian, Qiufang, Yin, Guotian, Lv, Lingchun, Lu, Di, Chen, Xiaoshu, Xue, Fengtai, An, Pei, Li, Haoyu, Deng, Huan, Li, Li, Qian, Lei, and Huo, Yong

Published

2023

9. A time-domain approach for the simulation of three-dimensional seismic wave propagation using the scaled boundary finite element method

Author

Qu, Yanling, Zhang, Junqi, Eisenträger, Sascha, and Song, Chongmin

Published

2022

10. A direct time-domain procedure for the seismic analysis of dam–foundation–reservoir systems using the scaled boundary finite element method

Author

Qu, Yanling, Chen, Denghong, Liu, Lei, Ooi, Ean Tat, Eisenträger, Sascha, and Song, Chongmin

Published

2021

11. YLZ-F5, a novel polo-like kinase 4 inhibitor, inhibits human ovarian cancer cell growth by inducing apoptosis and mitotic defects

Author

Zhu, Yongxia, Liu, Zhihao, Qu, Yanling, Zeng, Jun, Yang, Meiqin, Li, Xiaoyi, Wang, Zhaodi, Su, Junxiang, Wang, Xueqin, Yu, Luoting, and Wang, Yue

Published

2020

12. BMP4 promotes oxaliplatin resistance by an induction of epithelial-mesenchymal transition via MEK1/ERK/ELK1 signaling in hepatocellular carcinoma

Author

Ma, Junli, Zeng, Shan, Zhang, Yan, Deng, Ganlu, Qu, Yanling, Guo, Cao, Yin, Ling, Han, Ying, Cai, Changjing, Li, Yiyi, Wang, Guqi, Bonkovsky, Herbert L., and Shen, Hong

Published

2017

13. Seismic analysis of post-tensioned concrete gravity dams using scaled boundary finite elements implemented as ABAQUS UEL

Author

Ya, Shukai, primary, Eisenträger, Sascha, additional, Qu, Yanling, additional, Zhang, Junqi, additional, Kuen, Thomas, additional, and Song, Chongmin, additional

Published

2023

14. BMP4 promotes hepatocellular carcinoma proliferation by autophagy activation through JNK1-mediated Bcl-2 phosphorylation

Author

Deng, Ganlu, Zeng, Shan, Qu, Yanling, Luo, Qingqing, Guo, Cao, Yin, Ling, Han, Ying, Li, Yiyi, Cai, Changjing, Fu, Yaojie, and Shen, Hong

Published

2018

15. BMP4 enhances hepatocellular carcinoma proliferation by promoting cell cycle progression via ID2/CDKN1B signaling

Author

Ma, Junli, Zeng, Shan, Zhang, Yan, Deng, Ganlu, Qu, Yanling, Guo, Cao, Yin, Ling, Han, Ying, and Shen, Hong

Published

2017

16. A Nomogram for Predicting Survival in Patients With Colorectal Cancer Incorporating Cardiovascular Comorbidities

Author

Wang, Hao, primary, Liu, Dong, additional, Liang, Hanyang, additional, Ba, Zhengqing, additional, Ma, Yue, additional, Xu, Haobo, additional, Wang, Juan, additional, Wang, Tianjie, additional, Tian, Tao, additional, Yang, Jingang, additional, Gao, Xiaojin, additional, Qiao, Shubin, additional, Qu, Yanling, additional, Yang, Zhuoxuan, additional, Guo, Wei, additional, Zhao, Min, additional, Ao, Huiping, additional, Zheng, Xiaodong, additional, Yuan, Jiansong, additional, and Yang, Weixian, additional

Published

2022

17. Seismic analysis of gravity dam-reservoir-foundation systems using scaled boundary finite element method

Author

Qu, Yanling

Subjects

Damage simulation, Seismic analysis, Far field, Scaled boundary finite element method, Physics::Geophysics, Gravity dam

Abstract

A gravity dam is designed to retain water by using its self-weight to resist hydro-pressure of the reservoir. When an earthquake occurs, the energy emanated from the earthquake source may reach the dam site and cause the dam to vibrate. The earthquake action at the site is often the most critical loading case in the design of gravity dams. The estimation of the dynamic responses of gravity dams to earthquakes is necessary for achieving optimal upgrades and maintenance, and for improving our confidence in knowing that a dam will survive the impact of an earthquake of a specified magnitude. This thesis develops an efficient approach to the seismic analysis of gravity dam-reservoir-foundation systems with an emphasis on the seismic input modelling and adaptive damage simulation of dams. The whole system is divided into a bounded domain including the dam body and adjacent parts of reservoir and foundation, and an unbounded domain of reservoir and an unbounded domain of foundation. The dynamic properties of the unbounded domains are simulated by artificial boundaries formulated in the framework of Scaled Boundary Finite Element Method (SBFEM). The seismic waves are considered as plane waves in both two-dimensional and three-dimensional media. The seismic waves are inputted to the bounded domains by means of the Domain Reduction Method (DRM) through a single layer of elements adjacent to the interface between the bounded domain and the unbounded domain of foundation. The fully automatic quadtree/octree mesh technique is employed to discretize the complex geometry of the bounded domain including the dam and geological features in the foundation. The scaled boundary finite element method is applied in the bounded domain and overcomes the issue of hanging node faced by standard finite elements. The continuum damage mechanics is applied to model concrete and rocks as quasi-brittle materials. An h-adaptive strategy is developed for damage analysis to improve the computational efficiency. A progressive damage process is simulated through a series of optimal meshes. The proposed strategy simplifies the implementation of the adaptive analysis in automatic mesh refinement and data transfer. As the final outcome of this thesis, an automatic and efficient SBFEM formulation for seismic analysis of gravity dam-reservoir-foundation interaction systems has been developed. Case studies of gravity dams are performed.

Published

2021

18. Seismic analysis of gravity dam-reservoir-foundation systems using scaled boundary finite element method

Author

Song, Chongmin, School of Civil and Environmental Engineering, Engineering, UNSW, Atroshchenko, Elena, School of Civil and Environmental Engineering, Engineering, UNSW, Qu, Yanling, School of Civil and Environmental Engineering, Engineering, UNSW, Song, Chongmin, School of Civil and Environmental Engineering, Engineering, UNSW, Atroshchenko, Elena, School of Civil and Environmental Engineering, Engineering, UNSW, and Qu, Yanling, School of Civil and Environmental Engineering, Engineering, UNSW

Abstract

A gravity dam is designed to retain water by using its self-weight to resist hydro-pressure of the reservoir. When an earthquake occurs, the energy emanated from the earthquake source may reach the dam site and cause the dam to vibrate. The earthquake action at the site is often the most critical loading case in the design of gravity dams. The estimation of the dynamic responses of gravity dams to earthquakes is necessary for achieving optimal upgrades and maintenance, and for improving our confidence in knowing that a dam will survive the impact of an earthquake of a specified magnitude.This thesis develops an efficient approach to the seismic analysis of gravity dam-reservoir-foundation systems with an emphasis on the seismic input modelling and adaptive damage simulation of dams. The whole system is divided into a bounded domain including the dam body and adjacent parts of reservoir and foundation, and an unbounded domain of reservoir and an unbounded domain of foundation.The dynamic properties of the unbounded domains are simulated by artificial boundaries formulated in the framework of Scaled Boundary Finite Element Method (SBFEM). The seismic waves are considered as plane waves in both two-dimensional and three-dimensional media. The seismic waves are inputted to the bounded domains by means of the Domain Reduction Method (DRM) through a single layer of elements adjacent to the interface between the bounded domain and the unbounded domain of foundation.The fully automatic quadtree/octree mesh technique is employed to discretize the complex geometry of the bounded domain including the dam and geological features in the foundation. The scaled boundary finite element method is applied in the bounded domain and overcomes the issue of hanging node faced by standard finite elements.The continuum damage mechanics is applied to model concrete and rocks as quasi-brittle materials. An h-adaptive strategy is developed for damage analysis to improve the computational effi

Published

2021

19. Omecamtiv mecarbil in chronic heart failure with reduced ejection fraction, GALACTIC‐HF: baseline characteristics and comparison with contemporary clinical trials

Author

Teerlink, John R., Diaz, Rafael, Felker, G. Michael, McMurray, John J.V., Metra, Marco, Solomon, Scott D., Adams, Kirkwood F., Anand, Inder, Arias‐Mendoza, Alexandra, Biering‐Sørensen, Tor, Böhm, Michael, Bonderman, Diana, Cleland, John G.F., Corbalan, Ramon, Crespo‐Leiro, Maria G., Dahlström, Ulf, Echeverria Correa, Luis E., Fang, James C., Filippatos, Gerasimos, Fonseca, Cândida, Goncalvesova, Eva, Goudev, Assen R., Howlett, Jonathan G., Lanfear, David E., Lund, Mayanna, Macdonald, Peter, Mareev, Vyacheslav, Momomura, Shin‐ichi, O'Meara, Eileen, Parkhomenko, Alexander, Ponikowski, Piotr, Ramires, Felix J. A., Serpytis, Pranas, Sliwa, Karen, Spinar, Jindrich, Suter, Thomas M., Tomcsanyi, Janos, Vandekerckhove, Hans, Vinereanu, Dragos, Voors, Adriaan A., Yilmaz, Mehmet B., Zannad, Faiez, Sharpsten, Lucie, Legg, Jason C., Abbasi, Siddique A., Varin, Claire, Malik, Fady I., Kurtz, Christopher E., Besada, Diego Alejandro, Majul, Claudio Rodolfo, Bruno, Marco Raul Litvak, Sassone, Sonia, Avaca, Horacio Alberto, Rasmussen, Mariela, Aiub, Jorge Roberto, Hominal, Miguel Angel, Perna, Eduardo, Duran, Ruben Omar Garcia, Schiavi, Lilia, Marquez, Lilia Luz Lobo, Vilamajo, Oscar Alberto Gomez, Mackinnon, Ignacio, Fuente, Ricardo Alfonso Leon, Montana, Oscar Romano, Novaretto, Leonardo, Guerrero, Rodolfo Andres Ahuad, Brasca, Daniela Garcia, Prado, Aldo, Garrido, Marcelo Alejandro, Luquez, Hugo, Martinez, Diego Felipe, Nicolosi, Liliana, Parody, Maria Leonor, Zaidman, Cesar, Berra, Fernando Colombo, Ibañez, Julio, Zapata, Gerardo, Caccavo, Alberto, Colque, Roberto, Diez, Mirta, Poy, Carlos, Salomone, Oscar Alejandro, Vogel, Daniel, Bordonava, Anselmo Paulino, Fernandez, Alberto, French, John, Atherton, John, Hamilton, Andrew, Begg, Alistair, Abhayaratna, Walter, Judkins, Christopher, De Pasquale, Carmine, McKenzie, Scott, Amerena, John, Szto, Gregory, Kearney, Leighton, Zimmet, Hendrik, Sverdlov, Aaron, Beltrame, John, Korczyk, Dariusz, Sindone, Andrew, Moertl, Deddo, Huber, Kurt, Huelsmann, Martin, Ablasser, Klemens, Ebner, Christian, Siostrzonek, Peter, Drexel, Heinz, Poelzl, Gerhard, Dujardin, Karl, Dupont, Matthias, Buysschaert, Ian, Lancellotti, Patrizio, Droogne, Walter, Chouchane, Iman, Silveira, Fabio, Rassi, Salvador, Reis, Gilmar, Filho, Pedro Pimentel, Simoes, Marcus Vinicius, Braga, Joao Carlos, Giorgeto, Flavio Eduardo, Ferraz, Almir, Jaeger, Cristiano Pederneiras, Saraiva, Jose Francisco, Tognon, Alexandre, Cardoso, Juliano, Greco, Oswaldo, Paiva, Maria Sanali, Paolino, Bruno, Filho, Otavio Coelho, Maia, Lilia Nigro, Silva, Rodrigo, Canesin, Manoel, Rossi, Paulo Roberto Ferreira, Fortes, Jose Augusto Ribas, Cerci, Rodrigo Julio, Manenti, Euler Roberto Fernandes, Leaes, Paulo Ernesto, Silva Neto, Luis Beck, Souza, Weimar Kunz Barroso, Bacal, Fernando, Chaves, Renato, Ramires, Felix, Vidotti, Maria Helena, Barros e Silva, Pedro Gabriel Melo, Piegas, Leopoldo Soares, Todorov, Georgi, Tzekova, Maria, Goudev, Assen, Mincheva, Valentina, Vasilev, Ivaylo, Tisheva‐ Gospodinova, Snezhanka, Petrov, Ivo, Postadzhiyan, Arman, Velikov, Chavdar, Dimov, Bojidar, Constance, Christian, Phaneuf, Denis‐Carl, Mielniczuk, Lisa, Pandey, A Shekhar, Senaratne, Manohara, Zieroth, Shelley, Savard, Daniel, Stewart, Robert, Huynh, Thao, Giannetti, Nadia, Moe, Gordon, Bourgeois, Ronald, Ezekowitz, Justin, Hartleib, Michael, Sussex, Bruce, Babapulle, Mohan, Chehayeb, Raja, Gaudet, Daniel, McKelvie, Robert, Nguyen, Viviane, Roth, Sherryn, Gupta, Milan, Pesant, Yves, Rupka, Dennis, Bhargava, Rakesh, Costa‐Vitali, Atilio, Proulx, Guy, Vega, Mario, Potthoff, Sergio, Cid, Maria Cristina Schnettler, Sepulveda, Alex Mauricio Villablanca, Zanetti, Fernando Tomas Lanas, Gajardo, Victor Areli Saavedra, Kindel, Carlos Conejeros, Jofre, Christian Paolo Pincetti, Segarra, Jorge Leonardo Cobos, Venegas, Manuel Eduardo Rodriguez, Hidalgo, Mario Yanez, Jalaf, Margarita Gertrudis Vejar, Li, Weimin, Zhang, Jinguo, Fu, Xin, Zhang, Xuelian, Li, Dongye, Wang, Zhifang, Qu, Yanling, Zheng, Zhe, Tang, Huifang, Yang, Ping, Zhang, Yuhui, Zheng, Yang, Mi, Yafei, Huang, He, Bu, Peili, Chen, Guoqin, Chen, Jiyan, Han, Yajun, Li, Zhangquan, Ma, Shumei, Yang, Xuming, Yuan, Zuyi, Dong, Yugang, Li, Zhaoping, Mahemuti, Ailiman, Niu, Wentang, Yang, Zhenyu, Zhang, Yuqing, Sun, Yuemin, Wu, Weiheng, Liu, Feng, Yan, Jing, Li, Yinjun, Wang, Yi, Zhang, Shouyan, Zhou, Changyong, Cui, Hanbin, Li, Jianjun, Li, Tianfa, Han, Qinghua, Wei, Yu, Correa, Luis Eduardo Echeverria, Mendoza, Jose Luis Accini, Jattin, Fernando Manzur, Osorio, Wilder Castaño, Luengas, Carlos Alberto, Arroyo, Julian Alonso Coronel, Corredor, Miguel Alfredo Moncada, Giraldo, Clara Ines Saldarriaga, Lopez, Rodrigo Botero, Salazar, Dora Ines Molina, Triana, Miguel Urina, Lopez, Luis Horacio Atehortua, Rojas, Pastor Olaya, Pelaez, Sebastian Velez, Pareja, Monica Lopez, Bonfanti, Alberto Cadena, Polasek, Rostislav, Monhart, Zdenek, Sochor, Karel, Motovska, Zuzana, Belohlavek, Jan, Busak, Ladislav, Krupicka, Jiri, Tyl, Petr, Jerabek, Ondrej, Podpera, Ivo, Skrobakova, Janka, Peterka, Karel, Spacek, Rudolf, Cech, Vladimir, Kellnerova, Ivana, Nechvatal, Libor, Pozdisek, Zbynek, Houra, Marek, Kryza, Radim, Machova, Vilma, Cepelak, Michal, Stepek, David, Zeman, Kamil, Klimsa, Zdenek, Koleckar, Pavel, Schee, Alexandr, Spinarova, Lenka, Coufal, Zdenek, Jeppesen, Jorgen, Vraa, Soren, Wiggers, Henrik, Nyvad, Ole, Nielsen, Tonny, Kaiser‐Nielsen, Peter, Videbaek, Lars, Galinier, Michel, Lefebvre, Jean‐Marie, Tartiere, Jean‐Michel, De Geeter, Guillaume, Roubille, Francois, Ricci, Jean Etienne, Salvat, Muriel, Gueffet, Jean‐Pierre, Decoulx, Eric, Berdague, Philippe, Jondeau, Guillaume, Ovize, Michel, Groote, Pascal De, Donal, Erwan, Isnard, Richard, Sabatier, Rémi, Trochu, Jean Noel, Damy, Thibaud, Georges, Jean‐Louis, Rosamel, Yann, Picard, François, Aboyans, Victor, Laperche, Thierry, Mitrovic, Veselin, Taggeselle, Jens, Störk, Stefan, Ebelt, Henning, Genth‐Zotz, Sabine, Rassaf, Tienush, Duengen, Hans‐Dirk, Mittag, Marcus, Menck, Niels, Zeymer, Uwe, Haehling, Stephan, Boehm, Michael, Frankenstein, Lutz, Killat, Holger, Bourhaial, Hakima, Beug, Daniel, Horacek, Thomas, Pfister, Roman, Sandri, Marcus, Westenfeld, Ralf, Kadel, Christoph, Karvounis, Haralambos, Patsilinakos, Sotirios, Mantas, Ioannis, Karavidas, Apostolos, Giamouzis, Grigorios, Tsioufis, Konstantinos, Naka, Katerina, Tziakas, Dimitrios, Parissis, John, Styliadis, Ioannis, Barbetseas, Ioannis, Manolis, Athanasios, Kochiadakis, George, Herczeg, Bela, Nagy, Laszlo, Nyolczas, Noemi, Toth, Kalman, Merkely, Bela, Laszlo, Zoltan, Mark, Laszlo, Szakal, Imre, Papp, Andras, Bezzegh, Katalin, Lakatos, Ferenc, Hajko, Erik, Papp, Aniko, Forster, Tamas, Lupkovics, Geza, Mohacsi, Attila, Salamon, Csaba, Aradi, Daniel, Andreka, Peter, Szasz, Gyula, Zilahi, Zsolt, Kazinczy, Rita, Margonato, Alberto, Agostoni, Piergiuseppe, Fucili, Alessandro, Piovaccari, Giancarlo, Senni, Michele, Carluccio, Erberto, Bilato, Claudio, Frigerio, Maria, Indolfi, Ciro, Sinagra, Gianfranco, Brunetti, Natale Daniele, Perna, Gianpiero, Pini, Daniela, Volterrani, Maurizio, Leonardi, Sergio, Mortara, Andrea, Friz, Hernan Emilio Francisco Polo, Rossini, Roberta, Tocchetti, Carlo Gabriele, Vincenzi, Antonella, Cavallini, Claudio, Floresta, Agata Marina, Zaca, Valerio, Giudici, Vittorio, Villani, Giovanni Quinto, Higashino, Yorihiko, Oishi, Shogo, Wada, Atsuyuki, Fukuzawa, Shigeru, Onoue, Kenji, Koike, Akihiro, Koizumi, Tomomi, Masuda, Seigo, Mitsuo, Kazuhisa, Takahashi, Natsuki, Takenaka, Takashi, Tanabe, Jun, Watanabe, Naoki, Yoshida, Takeshi, Amano, Tetsuya, Ishikawa, Masahiro, Kida, Keisuke, Kubota, Toru, Nakamura, Kentaro, Sakamoto, Tomohiro, Shimomura, Mitsuhiro, Yuge, Masaru, Doi, Masayuki, Domae, Hiroshi, Ebato, Mio, Fujii, Kenshi, Fujiwara, Wakaya, Gohara, Seiichiro, Hata, Yoshiki, Kanda, Junji, Kitaoka, Hiroaki, Matsumoto, Takashi, Michishita, Ichiro, Miura, Shinichiro, Miyazaki, Tetsuro, Nakamura, Akihiro, Ogawa, Tomohiro, Okumura, Takahiro, Okumura, Yasuo, Sakai, Tetsuo, Sato, Yukihito, Shimizu, Wataru, Sugino, Hiroshi, Suzuki, Masahiro, Takagi, Atsutoshi, Takaishi, Hiroshi, Tanaka, Takahiro, Terasaki, Toshiro, Tsujimoto, Mitsuru, Ueda, Yasunori, Ujino, Keiji, Usui, Makoto, Yamamoto, Mitsutaka, Yoshikawa, Masaki, Ando, Kenji, Asakura, Masanori, Asano, Hiroshi, Fujii, Shigeru, Hara, Hisao, Inomata, Takayuki, Isshiki, Takaaki, Kadokami, Toshiaki, Kai, Hisashi, Kasai, Toshio, Kawamitsu, Katsunori, Kawasaki, Tomohiro, Koga, Tokushi, Komiyama, Nobuyuki, Maejima, Yasuhiro, Manita, Mamoru, Miyamoto, Nobuhide, Node, Koichi, Numaguchi, Kotaro, Sakata, Yasushi, Serikawa, Takeshi, Takama, Noriaki, Tatebe, Shunsuke, Ueno, Hideki, Hidaka, Takayuki, Hiroi, Shitoshi, Iseki, Harukazu, Ito, Hiroshi, Kajinami, Kouji, Kawakami, Hideo, Momiyama, Yukihiko, Mori, Masuki, Morita, Yukiko, Okishige, Kaoru, Sakagami, Satoru, Takeishi, Yasuchika, Terasawa, Akihiro, Utsu, Noriaki, Badariene, Jolita, Celutkiene, Jelena, Slapikas, Rimvydas, Jarasuniene, Dalia, Castillo, Armando Garcia, De los Rios Ibarra, Manuel Odin, Lopez, Gabriel Arturo Ramos, Llamas, Edmundo Alfredo Bayram, Esperon, Guillermo Antonio Llamas, Vazquez, Eduardo Salcido, Gonzalez, Ricardo Garcia, Leon, Jose Luis Arenas, Gonzalez, Salvador Leon, Mendoza, Maria Alexandra Arias, Rodriguez, Alicia Contreras, Machado, Gustavo Francisco Mendez, Salazar, Melchor Alpizar, Ruiz, Alberto Esteban Bazzoni, Flores, Ana Maria De Leon, Carrasco, Jose Alfredo Pagola, Araiza, Raul Reyes, Römer, Tjeerd, Remmen, Johannes, Van Eck, Jacob, Elvan, Arif, Smilde, Tom, Voors, Adriaan, Wal, Ruud, Schaap, Jeroen, Sluis, Aize, Linssen, Gerardus, Magro, Michael, Willems, Frank, Hal, John, Zwaan, Coenraad, Beelen, Driek, Boswijk, Dirk, Hermans, Walter, Van Kesteren, Henricus, Scott, Russell, Hart, Hamish, Lund, Marianne, Szczasny, Marcin, Blicharski, Tomasz, Kafara, Mariusz, Stankiewicz, Anna, Skonieczny, Grzegorz, Zabowka, Maciej, Kania, Grzegorz, Kopaczewski, Jerzy, Pawlowicz, Lidia, Spyra, Janusz, Wlodarczyk, Aleksander, Sciborski, Ryszard, Balsam, Pawel, Drozdz, Jaroslaw, Sobkowicz, Bozena, Konieczynska, Malgorzata, Lelonek, Malgorzata, Bednarkiewicz, Zbigniew, Trebacz, Jaroslaw, Jankowski, Piotr, Sidor, Mateusz, Berkowski, Piotr, Chmielak, Zbigniew, Lenartowska, Lucyna, Nessler, Jadwiga, Straburzynska‐Migaj, Ewa, Kalarus, Zbigniew, Kowalski, Robert, Kalecinska‐Krystkiewicz, Ewa, Gola, Zbigniew, Pijanowski, Zbigniew, Wozakowska‐Kaplon, Beata, Cymerman, Krzysztof, Rynkiewicz, Andrzej, Miekus, Pawel, Monteiro, Pedro, Sarmento, Pedro Morais, Almeida, Filipa, Duarte, Tatiana, Fonseca, Candida, Oliveira, Luis, Santos, Luis, Brito, Dulce, Stanciulescu, Gabriela, Spiridon, Marilena Renata, Militaru, Constantin, Podoleanu, Cristian Gheorghe, Zdrenghea, Dumitru, Popescu, Mircea Ioachim, Macarie, Cezar‐Eugen, Giuca, Alina, Mitu, Florin, Voicu, Olga‐Cristina, Dorobantu, Maria, Lighezan, Daniel, Stamate, Sorin, Bykov, Alexander, Kobalava, Zhanna, Zrazhevskiy, Konstantin, Semenova, Irina, Vishnevsky, Alexander, Shutemova, Elena, Tereschenko, Sergey, Shvarts, Yury, Barbarash, Olga, Lukyanov, Yury, Voevoda, Mikhail, Dovgolis, Svetlana, Dronov, Dmitry, Goloshchekin, Boris, Sitnikova, Maria, Ezhov, Marat, Tarasov, Nikolay, Kotelnikov, Mikhail, Kostenko, Viktor, Solovev, Oleg, Goncharov, Ivan, Myasnikov, Roman, Rafalskiy, Vladimir, Ryabov, Vyacheslav, Kosmacheva, Elena, Motylev, Igor, Nosov, Vladimir, Osipova, Irina, Salukhov, Vladimir, Belenkiy, Dmitriy, Bolshakova, Olga, Pimenov, Leonid, Shilkina, Nataliya, Kulibaba, Elena, Repin, Alexey, Timofeev, Alexander, Mitrokhin, Vladislav, Sherenkov, Alexander, Arbolishvili, Georgy, Antalik, Lubomir, Dzupina, Andrej, Fulop, Peter, Majercak, Ivan, Gonsorcik, Jozef, Vinanska, Daniela, Lenner, Egon, Lukacova, Jana, Margoczy, Roman, Smik, Rudolf, Stevlik, Jan, Uhliar, Rudolf, Burgess, Lesley, Badat, Aysha, Klug, Eric, Van Zyl, Louis, Abelson, Mark, Moodley, Rajendran, Tsabedze, Nqoba, Fourie, Nyda, Bonet, Luis Almenar, Prado, Jose Maria Arizon, Oliveira Soares, Manue Martinez‐Selles D, Villota, Julio Eduardo Nuñez, Leiro, Maria Generosa Crespo, Juanatey, Jose Ramon Gonzalez, Figal, Domingo Andres Pascual, Palomas, Juan Luis Bonilla, Perez, Sonia Mirabet, Jimenez, Juan Francisco Delgado, Padron, Antonio Lara, Diaz, Victor Alfonso Jimenez, Cubero, Javier Segovia, Paya, Vicente Eduardo Climent, Mayoral, Alejandro Recio, Fuente Galan, Luis, Doblas, Juan Jose Gomez, Freire, Ramon Bover, Peiro, Maria Teresa Blasco, Molina, Beatriz Diaz, Martinez, Laura Jordan, Vilchez, Francisco Gonzalez, Boman, Kurt, Karlstrom, Patric, Berglund, Stefan, Szabo, Barna, Peterson, Magnus, Wodlin, Peter, Lindholm, Carl‐Johan, Moccetti, Tiziano, Mueller, Christian, Suter, Thomas, Hullin, Roger, Meyer, Philippe, Noll, Georg, Yigit, Zerrin, Turgut, Okan Onur, Bekar, Lutfu, Sahin, Tayfun, Koldas, Zehra Lale, Celik, Ahmet, Cavusoglu, Yuksel, Demir, Mesut, Onrat, Ersel, Duzenli, Mehmet, Cosansu, Kahraman, Muderrisoglu, Ibrahim Haldun, Tuncer, Mustafa, Badak, Ozer, Nalbantgil, Sanem, Kirma, Cevat, Okuyan, Ertugrul, Guray, Umit, Prokhorov, Oleksandr, Karpenko, Oleksandr, Vakaliuk, Igor, Yagensky, Andriy, Kracz, Igor, Stanislavchuk, Mykola, Kulynych, Oleksii, Rishko, Mykola, Stets, Roman, Tseluyko, Vira, Mishchenko, Larysa, Rudenko, Leonid, Rudyk, Iurii, Alieksieieva, Liudmyla, Korzh, Oleksii, Mostovoy, Yuriy, Parkhomenko, Oleksandr, Rasputina, Lesya, Voronkov, Leonid, Lymar, Yurii, Vasilyeva, Larysa, Keeling, Philip, Barr, Craig, Wong, Kenneth, Price, Dallas, Skaria, Binoy, Clark, Andrew, Chandrasekaran, Badrinathan, Trevelyan, Jasper, Gordon, Brian, Donnelly, Patrick, Glover, Jason, Ryding, Alisdair, Weir, Robin, Lang, Chim, Roy, Debashis, Adhya, Shaumik, Clifford, Piers, Ludman, Andrew, Kalra, Paul, Lynch, Mary, Mahmood, Shahid, Al Mohammad, Abdallah, Asubiaro, Joshua, Elmahi, Einas, Muthumala, Amal, Taylor, Justin, Gupta, Dinesh, Nadar, Venkatesh, Henderson, David, Zolty, Ronald, Sauer, Andrew, Adams, Kirkwood, Chandra, Lokesh, Jaffrani, Naseem, Grewal, Gurinder, Mancini, Donna, McLean, Dalton, Vasallo, Javier, Gottlieb, Stephen, Joseph, Susan, Barua, Rajat, Gorodeski, Eiran, Mouhaffel, Asad, Chung, Eugene, Desai, Pratik, Portnay, Edward, Rama, Bhola, Shandling, Adrian, Stahl, Llyod, Heilman, Karl, Jacob, Binu, Londono, Juan, Almousalli, Omar, Ashcom, Thomas, Bauerlein, Eugene Joseph, Koo, Charles, McGrew, Frank, Rajagopalan, Navin, Robinson, Shawn, Schultz, David, Starling, Randall, Ambardekar, Amrut, Bhagwat, Ravi, Boehmer, John, Bouza, Manuel, Farris, Neil, Feitell, Scott, Ganji, Jagadeesh, Geltman, Edward, Javier, Julian, Morrow, John Andrew, Pianko, Leonard, Smart, Frank, Adler, Alexander, Brinkley, Douglas, Cardona, Jose, Coletti, Andrew, Harris, John, Hunter, Vernon, Krantz, Mori, Lang, Christopher, Lovell, Charles, Murray, David, Pillutla, Priya, Shah, Amit, Bogaev, Roberta, Dauber, Ira, Franchi, Francesco, Fremont, Richard, Hart, Terence, Hattler, Brack, Janik, Matthew, Khalife, Wissam, Malhotra, Sanjay, Mamdani, Shafiq, Nelson, William, Orgera, Marisa, Ortiz, Aurelio, Rahko, Peter, Rennyson, Stephen, Shin, Jooyoung, Tsao, Lana, Uretsky, Barry, Wahid, Faisal, Wilkett, Matt, Amanullah, Aman, Baker, Mathue, Berk, Martin, Boccalandro, Fernando, Cruz, Kimberly, Doyle, Timothy, Gianfagna, Robert, Jones, Alonzo, King, Anthony, Lepor, Norman, Martinez‐Castrillon, Melvin, Pham, Michael, Radin, Michael, Radojevic, Joseph, Ramanathan, Kodangudi, Schmalfuss, Carsten, Schnitzler, Robert, Shah, Keyur, Takata, Theodore, Bertolet, Barry, Bostick, Brian, Civitello, Andrew, Collins, John, Dib, Nabil, Fang, James, Gilmore, Richard, Gray, Wayne, Grazette, Luanda, Haddad, Tariq, Hearne, Steven, Janmohamed, Munir, Katz, Richard, Kazemi, Navid, Llerena, Sara, Lohr, Nicole, Marzouka, George, Mignone, John, Ooi, Henry, Paszczuk, Anna, Pickett, Christopher, Sampognaro, Gregory, Sawyer, Douglas, Shayani, Steven, Treasure, Charles, Vaz, Garth, Vijay, Nampalli, Williams, Celeste, Yeoman, Gary, Zhang, Lily, Aaronson, Keith, Abo‐Auda, Wael, Alharethi, Rami, Anderson, William, Ariani, Mehrdad, Banerji, Sourin, Baweja, Paramdeep, Carson, Peter, Eberly, Arthur, Elliott, James, Fernando, Ronald, Fisher, Daniel, Forman, Steven, Gabriel, George, Gogia, Harinder, Hametz, Craig, Houston, Brian, Ibrahim, Hassan, Jadbabaie, Farid, Kassiotis, Christos, Krishnamoorthy, Arun, Kwan, Michael, Lupovitch, Steven, Macias, Leonardo, Malik, Adnan, Martinez, Luis, Miyamoto, Michael, Mody, Freny, Patel, Devesh, Peart, Brenda, Pisani, Barbara, Ramos, Mark, Rivero, Mariel, Shah, Anil, Sharma, Mukesh, Sichrovsky, Tina, Simon, Marc, Singh, Deovrat, Tallet, Julio, Vaccari, Christopher, Villoch, Mario, Wheeler, Matthew, Yousuf, Kabir, Abadier, Rafik, Abdullah, Shuaib, Arora, Raveen, Aslam, Shamaila, Buynak, Robert, Chang, David, Contreras, Johanna, Halpern, Stephen, Handel, Franklin, Heitner, John, Herzog, William, Jackson, Bruce, Kao, John, Kondo, Nicholas, Koren, Michael, LeWinter, Martin, Martindale, Jeffrey, Martinez‐Arraras, Joaquin, Olsen, Stephanie, Piatek, Marek, Ranadive, Nandkishore, Randall, William, Rao, Sunder, Rawitscher, David, Rider, James, Sokos, George, Strader, J Russell, Sulemanjee, Nasir, Tahirkheli, Naeem, Trichon, Benjamin, Vanhecke, Thomas, Whellan, David, Abuannadi, Mohammad, Aggarwala, Gaurav, Ahmad, Saad, Artis, Andre, Cheirif, Jorge, Cotarlan, Vladimir, Cox, Jeremy, Eaton, Charles, Florea, Viorel, Frank, Theodore, Friedman, Keith, Ganeshram, Vedampattu, Gass, Alan, Gemignani, Anthony, Hasni, Syed, Hedgepeth, Chester, Itchhaporia, Dipti, Kaluski, Edo, Karim, Amin, Kono, Alan, Lader, Ellis, Lakshminarayanan, Batlagundu, Lewis, Neil, Malhotra, Vinay, Mayer, Nolan, Mohapatra, Robert, Nair, Nandini, O'Brien, Terrence, Pauwaa, Sunil, Rowan, Christopher, Saxena, Sanjeev, Seto, Arnold, Shah, Nishant, Singh, Pradeep, Skopicki, Hal, Stoddard, Marcus, and Sweitzer, Nancy

Subjects

R1

Abstract

Aims:\ud The safety and efficacy of the novel selective cardiac myosin activator, omecamtiv mecarbil, in patients with heart failure with reduced ejection fraction (HFrEF) is tested in the Global Approach to Lowering Adverse Cardiac outcomes Through Improving Contractility in Heart Failure (GALACTIC‐HF) trial. Here we describe the baseline characteristics of participants in GALACTIC‐HF and how these compare with other contemporary trials.\ud \ud Methods and Results:\ud Adults with established HFrEF, New York Heart Association functional class (NYHA) ≥ II, EF ≤35%, elevated natriuretic peptides and either current hospitalization for HF or history of hospitalization/ emergency department visit for HF within a year were randomized to either placebo or omecamtiv mecarbil (pharmacokinetic‐guided dosing: 25, 37.5 or 50 mg bid). 8256 patients [male (79%), non‐white (22%), mean age 65 years] were enrolled with a mean EF 27%, ischemic etiology in 54%, NYHA II 53% and III/IV 47%, and median NT‐proBNP 1971 pg/mL. HF therapies at baseline were among the most effectively employed in contemporary HF trials. GALACTIC‐HF randomized patients representative of recent HF registries and trials with substantial numbers of patients also having characteristics understudied in previous trials including more from North America (n = 1386), enrolled as inpatients (n = 2084), systolic blood pressure

Published

2020

20. Chlorinated Paraffins in Human Milk from Urban Sites in China, Sweden, and Norway

Author

Zhou, Yihui, Yuan, Bo, Nyberg, Elisabeth, Yin, Ge, Bignert, Anders, Glynn, Anders, Odland, Jon Øyvind, Qu, Yanling, Sun, Yajie, Wu, Yongning, Xiao, Qianfen, Yin, Daqiang, Zhu, Zhiliang, Zhao, Jianfu, Bergman, Åke, Zhou, Yihui, Yuan, Bo, Nyberg, Elisabeth, Yin, Ge, Bignert, Anders, Glynn, Anders, Odland, Jon Øyvind, Qu, Yanling, Sun, Yajie, Wu, Yongning, Xiao, Qianfen, Yin, Daqiang, Zhu, Zhiliang, Zhao, Jianfu, and Bergman, Åke

Abstract

Short-, medium-, and long-chain chlorinated paraffins (SCCPs, MCCPs, and LCCPs) were analyzed in human milk from the Yangtze River Delta (YRD) and Scandinavia. Individual samples were collected from Shanghai, Jiaxing, and Shaoxing (China), Stockholm (Sweden), and Bodo (Norway) between 2010 and 2016. Mean concentrations (range) of SCCPs, MCCPs, and LCCPs in samples from the YRD were 124 [

Published

2020

21. The anti-tumor activities of Neferine on cell invasion and oxaliplatin sensitivity regulated by EMT via Snail signaling in hepatocellular carcinoma

Author

Deng, Ganlu, primary, Zeng, Shan, additional, Ma, Junli, additional, Zhang, Yan, additional, Qu, Yanling, additional, Han, Ying, additional, Yin, Ling, additional, Cai, Changjing, additional, Guo, Cao, additional, and Shen, Hong, additional

Published

2017

22. Small Extracellular Vesicles Laden Oxygen-Releasing Thermosensitive Hydrogel for Enhanced Antibacterial Therapy against Anaerobe-Induced Periodontitis Alveolar Bone Defect

Author

Ming, Leiguo, Qu, Yanling, Wang, Zhe, Dong, Lingjuan, Li, Yinghui, Liu, Fen, Wang, Qingxia, Zhang, Dan, Li, Zhifeng, Zhou, Zhifei, Shang, Fengqing, and Xie, Xiaodong

Abstract

Periodontitis is a bacterially induced chronic destructive inflammatory disease that leads to irreversible destruction of the tooth supporting structure, including connective tissue destruction, bone resorption, and even tooth loss. Until now, there has been no effective treatment to repair inflammatory bone loss in periodontitis. Recently, small extracellular vesicles (sEVs) emerged as the essential paracrine factors of mesenchymal stem cells (MSCs) that mediated tissue regeneration. However, limitations of antimicrobial activity associated with the use of sEVs have led to the urgency of new alternative strategies. Currently, we investigated the potential of a biocompatible oxygen-releasing thermosensitive hydrogel laded with sEVs secreted by bone marrow MSCs (BMMSCs) for the alveolar bone defect in periodontitis. The hydrogel composed of different polymers such as chitosan (CS), poloxamer 407 (P407), and cross-linked hyaluronic acid (c-HA) conglomerating is a kind of nanoporous structure material. Then, the gel matrix further encapsulated sEVs and calcium peroxide nanoparticles to realize the control of sEVs and oxygen release. Furthermore, ascorbic acid was added to achieve the REDOX equilibrium and acid–base equilibrium. The experiments in vivo and in vitro proved its good biocompatibility and effectively inhibited the growth of the periodontal main anaerobe, relieved periodontal pocket anaerobic infections, and promoted the periodontal defect regeneration. Therefore, this finding demonstrated that it was a promising approach for combating anaerobic pathogens with enhanced and selective properties in periodontal diseases, even in other bacteria-induced infections, for future clinical application.

Published

2024

23. Detecting and Extracting the Photo Composites Using Planar Homography and Graph Cut

Author

Zhang, Wei, primary, Cao, Xiaochun, additional, Qu, Yanling, additional, Hou, Yuexian, additional, Zhao, Handong, additional, and Zhang, Chenyang, additional

Published

2010

24. An optical method of online measurement for the thickness of thin films

Author

Song, Min, primary, Zheng, Yaru, additional, Lu, Yongjun, additional, and Qu, Yanling, additional

Published

2007

25. The measurements of optical characterization for CMOS

Author

Song, Min, primary, Lu, Yongjun, additional, and Qu, Yanling, additional

Published

2007

26. An optical method of online measurement for the thickness of thin films.

Author

Song, Min, Zheng, Yaru, Lu, Yongjun, and Qu, Yanling

Published

2007

27. Study on effect of hydration combined with atorvastatin calcium for prevention of contrast nephropathy.

Author

Chai Weihong, Qu Yanling, and Pei Junfang

Published

2015

28. A novel technique for the generation of bis(polyfluoroalkyl) and polyfluoroalkyl nitroalkyl nitroxides. ESR verification of mechanistic propositions for the reactions between polyfluorodiacyl peroxides and carbanions derived from secondary nitroalkanes

Author

Zhao, Chengxue., primary, Jiang, Xikui., additional, Chen, Guofei., additional, Qu, Yanling., additional, Wang, Xianshan., additional, and Lu, Jianying., additional

Published

1986

29. Potential value of detection of minimal residual disease in colorectal cancer following radical resection.

Author

Pu W, Chen F, Tang Y, Qu Y, Han Y, Zha J, Jin J, and Kong F

Abstract

Although there has been significant advancement in the identification and management of colorectal cancer (CRC) in recent years, there is still room for improvement in the current standard treatment regimen. One area of concern is the lack of reliable tumor markers to predict treatment efficacy and guide tailored care. Due to its dynamic, effective, and non-invasive benefits over tissue biopsy, the detection of minimal or molecular residual lesions (MRD) based on circulating tumor DNA (ctDNA) is beneficial to the clinical development of drugs for patients with CRC after radical treatment, as well as for continuous monitoring of tumor recurrence and malignancy molecular gene evolution. The detection of ctDNA can currently be used to guide individual postoperative auxiliary treatment decisions (upgrade or downgrade treatment) in CRC, stratify the risk of clinical recurrence more precisely, and predict the risk of recurrence in advance of imaging examination, according to a large number of observational or prospective clinical studies. With increasing clarity comes the possibility of selecting a regimen of treatment based on postoperative ctDNA, which also improves the accuracy of clinical recurrence risk assessment for CRC. Therefore, it is anticipated that the identification of ctDNA would alter the current framework for dealing with CRC and lead to individualized, stratified precision therapy; however, additional confirmation will require subsequent high-quality, prospective, large-scale randomized controlled studies. This article will provide an overview of the definition and clinical significance of MRD, the primary indications and technological challenges for MRD detection, along with the advancement in clinical research about ctDNA detection following radical resection of the CRC., Competing Interests: Conflicts of Interest: The authors have no conflicts of interest to declare.Conflicts of Interest: The authors have no conflicts of interest to declare., (Copyright ©2024 Chinese Journal of Cancer Research. All rights reserved.)

Published

2024

30. [Expression of RASAL2 in hepatocellular carcinoma and the clinical significance].

Author

Shen H, Wu X, Zhang Y, Deng G, Ma J, Qu Y, and Zeng S

Subjects

Carcinoma, Hepatocellular genetics, Carrier Proteins genetics, GTPase-Activating Proteins, Humans, Liver Neoplasms genetics, Neoplasm Recurrence, Local, Prognosis, Carcinoma, Hepatocellular metabolism, Carrier Proteins metabolism, Liver Neoplasms metabolism

Abstract

Objective: To detect the expression of RA SAL2 in patients with hepatocellular carcinoma (HCC), and to investigate the association of RASAL2 expression with pathological characteristics and prognosis., Methods: Immunohistochemical SP method was used to detect the expression of RA SAL2 in 164 samples of HCC tissue and the adjacent tissue. Th e association of RA SAL2 expression with clinical features and prognosis was analyzed., Results: The expression of RASAL2 in adjacent tissue was significantly increased compared to that in HCC tissue (P<0.001). The expression level of RASAL2 was associated with the degree of differentiation, tumor TNM stage and vascular invasion (P<0.001), but not associated with the level of AFP, tumor size, or the number of nodules (P>0.05). The 5 years recurrence-free survival (RFS) in patients with low expression of RASLA2 was significantly reduced compared with that in patients with high expression of RASLA2 (P<0.001). Cox analysis showed that low expression of RASLA2 was the independent factor for recurrence and death in HCC patients after surgery (P<0.001)., Conclusion: Low expression of RRASAL2 is significantly associated with the poor prognosis of HCC, which is an independent factor for HCC prognosis.

Published

2015

31. [Correlation between the expression of C-terminal tensin-like protein and the prognosis of hepatocellular carcinoma].

Author

Chen J, Zhang Y, Deng G, Ma J, Wu X, Qu Y, and Zeng S

Subjects

Carcinoma, Hepatocellular diagnosis, Humans, Immunohistochemistry, Kaplan-Meier Estimate, Liver Neoplasms diagnosis, Prognosis, Tensins, Carcinoma, Hepatocellular metabolism, Liver Neoplasms metabolism, Microfilament Proteins metabolism

Abstract

Objective: To explore the correlation between the expression of C-terminal tensin-like protein (CTEN) and the prognosis of hepatocellular carcinoma (HCC)., Methods: Using immunohistochemistry, we detected CTEN protein level in samples of primary lesion and adjacent non-tumor lesion collected from 240 patients with HCC. The relationship between CTEN expression and clinicopathology, 5 year recurrent-free survival, or overall survival was evaluated by Chi-square test, Kaplan-Meier, or Cox regression analysis., Results: High CTEN expression was detected in 55% of hepatocellular carcinoma tissues and 20% of adjacent carcinoma tissues (P< 0.001). CTEN expression was positively correlated with tumor diameter (P=0.022), venous invasion (P=0.007) or TNM stages (P=0.022). Five-year recurrence-free survival time (P< 0.001) and overall survival time (P< 0.001) in patients with high CTEN expression were significantly less than those in patients with low CTEN expression. Multivariate Cox regression analysis revealed that the CTEN expression was an independent prognostic marker for HCC (all P< 0.05)., Conclusion: CTEN protein may play a role in the genesis and development of HCC, and it can function as a prognostic marker.

Published

2014