X
Xiaoyuan Chen
Researcher at National University of Singapore
Publications - 1270
Citations - 115993
Xiaoyuan Chen is an academic researcher from National University of Singapore. The author has contributed to research in topics: Photothermal therapy & Medicine. The author has an hindex of 149, co-authored 994 publications receiving 89870 citations. Previous affiliations of Xiaoyuan Chen include Brown University & University of Southern California.
Papers
More filters
Journal ArticleDOI
Preclinical evaluation of an 18 F-trifluoroborate methionine derivative for glioma imaging
Xiangyu Yang,Xiangyu Yang,Zhibo Liu,Huimin Zhang,Zhu Li,Jeeva Munasinghe,Gang Niu,Gaojun Teng,Xiaoyuan Chen +8 more
TL;DR: 18F-B-MET was radiolabeled with high yield in a one-step labeling process, showed excellent pharmacokinetic properties in vivo, with high tumor-to-brain contrast, and could be competitively inhibited by natural methionine and other L-type transporter transported amino acids.
Journal ArticleDOI
Combined 68Ga-NOTA-PRGD2 and 18F-FDG PET/CT Can Discriminate Uncommon Meningioma Mimicking High-Grade Glioma.
Deling Li,Jingjing Zhang,Nan Ji,Xiaobin Zhao,Kun Zheng,Zhen Qiao,Fang Li,Lixin Lang,Andrei Iagaru,Gang Niu,Zhaohui Zhu,Xiaoyuan Chen +11 more
TL;DR: This study reveals a specific imaging pattern of uncommon meningioma mimicking HGG, in which 68Ga-NOTA-PRGD2 PET provided added value to 18F-FDG PET.
Journal ArticleDOI
RGD PET: From Lesion Detection to Therapy Response Monitoring
Gang Niu,Xiaoyuan Chen +1 more
TL;DR: Evaluating in non-small cell lung cancer (NSCLC) patients the PET-based human dosimetry and biodistribution of [18F]FAZA found the favorable radiation risk profile associated to whole body PET with [18FsFAZA is definitely feasible for clinical hypoxia evaluation, also allowing patients to safely receive consecutive PET/CT studies.
Journal ArticleDOI
Measurement of integrated luminosities at BESIII for data samples at center-of-mass energies between 4.0 and 4.6 GeV
B. C. M. Ablikim,M. N. Achasov,P. Adlarson,M. Albrecht,R. Aliberti,A. Amoroso,M. An,Q. An,X. H. Bai,Yu Bai,O. Bakina,R. Baldini-Ferroli,I. Balossino,Y. Ban,Varvara Batozskaya,Dominik Becker,K. Begzsuren,Niklaus Berger,M. Bertani,D. Bettoni,F. Bianchi,J. Bloms,A. Bortone,Igor Boyko,R. A. Briere,Aminia Brueggemann,Hongchun Cai,X. Cai,A. Calcaterra,Gao Fang Cao,N. Cao,S. A. Cetin,J. F. Chang,Wei Lin Chang,G. A. Chelkov,C. Chen,G. F. Chen,H. S. Chen,M. L. Chen,S. J. Chen,X.R. Chen,X. Chen,Yi Chen,B. J. Chen,W. S. Cheng,Xiang-Wei Chu,G. Cibinetto,F. Cossio,J. Jean Cui,H. L. Dai,J. P. Dai,A. Dbeyssi,Robert E. Boer,D. V. Dedovich,Z. Y. Deng,A. G. Denig,I. Denysenko,M. Destefanis,F. De Mori,Jie Dong,L. Y. Dong,M. Y. Dong,X. Dong,S. X. Du,P. Egorov,J. Fang,S. S. Fang,R. Farinelli,L. Fava,F. Feldbauer,G. Felici,C. Q. Feng,K. M. Fischer,Michael Fritsch,Christoph Fritzsch,C. D. Fu,Y. N. Gao,Yang Gao,S. Garbolino,I. Garzia,P. T. Ge,Zongyuan Ge,Chao Geng,E. Gersabeck,A. Gilman,Lei Gong,W. X. Gong,W. Gradl,M. Greco,L Gu,Mile Gu,Y. T. Gu,C. Y. Guan,A. Q. Guo,R.P. Guo,Y. P. Guo,A. Guskov,T. T. Han,Wenbo Han,X. Q. Hao,F. A. Harris,K. He,K. L. He,F.H. Heinsius,Christof Heinz,Y. K. Heng,Christoph Herold,T. Holtmann,Guan-Yu Hou,Y. Hu,Z. L. Hou,H.M. Hu,T. Hu,Y Hu,Gang Huang,Kevin Xiu Huang,X. T. Huang,Y. J. Huang,T. Hussain,N. Husken,W. Imoehl,M. Irshad,James Jackson,S. Jaeger,S. Janchiv,Q. P. Ji,X. B. Ji,Xiangdong Ji,Yujia Ji,Zhurong Jia,H. Jiang,Shengji Jiang,Y. Jiang,J. B. Jiao,Z. Jiao,S. Jin,Y K Jin,Maoqiang Jing,T. Johansson,Nasser Kalantar-Nayestanaki,Xinmei Kang,R. Kappert,M. Kavatsyuk,Bibo Ke,I. K. Keshk,A. Khoukaz,P. Kiese,R. Kiuchi,L. Koch,O. B. Kolcu,B. Kopf,M. Kuemmel,M. Kuessner,A. Kupsc,W. Kuhn,John Jake Lane,J. S. Lange,P. Larin,A. Lavania,L. Lavezzi,Zhihai Lei,H. Leithoff,M. Lellmann,T. Lenz,C Li,C. H. Li,Cheng Li,D. M. Li,G. Lin,H S. Li,H. B. Li,H. Lim,H N Li,J. Q. Li,J. S. Li,J. W. Li,L.J. Li,L. Liu,Li Li,M. H. Li,S.X. Li,S. Li,W. D. Li,W. G. Li,X. Liu,Xiao-Ya Li,H. Liang,Y. F. Liang,Guo Liao,LC Liao,J. Libby,Ayut Limphirat,C. X. Lin,Da Xien Lin,Tao Lin,Bo Liu,C. X. Liu,F. Liu,Feng Liu,Hu Liu,H. M. Liu,Huanhuan Liu,Huihui Liu,J. B. Liu,J. Liu,J. Y. Liu,Ke Li,M. H. Liu,Q. J. Li,S. B. Liu,T. Liu,Wu Liu,W M Liu,Yu Liu,Z. Liu,Z. Q. Liu,X. C. Lou,Feipeng Lu,Y. P. Lu,MF Luo,Tianchan Luo,Xuanyu Lyu,Yuze Lyu,F. C. Ma,L. L. Ma,M. Ma,Q. M. Ma,R. Ma,R. Ma,Y L Ma,F. E. Maas,M. Maggiora,S. Maldaner,S. Malde,Q. A. Malik,A. Mangoni,Yajun Mao,Z. P. Mao,S. Marcello,Z.X. Meng,J. G. Messchendorp,G. Mezzadri,He Miao,Tae-Jin Min,R. E. Mitchell,X. H. Mo,N. Yu. Muchnoi,H. Muramatsu,Y. Nefedov,F. Nerling,I. B. Nikolaev,Z. Ning,S. Nisar,Yuru Niu,S. L. Olsen,Q. Ouyang,S. Pacetti,Xiaoqing Pan,Atanu Pathak,M. Pelizaeus,Hong Peng,Jesper Pettersson,Jialun Ping,R. G. Ping,S. Plura,S. N. Pogodin,R. Poling,V. Prasad,H. R. Qi,H. R. Qi,M. Qi,T. Y. Qi,S. Qian,Wei Qian,Z. Qian,Chunlan Qiao,Jun Qin,L. Q. Qin,Xiao Qin,X. S. Qin,Z. H. Qin,J. F. Qiu,S. Q. Qu,K. H. Rashid,Christoph Rembser,K. J. Ren,A Rivetti,V. Rodin,M. Rolo,G. Rong,Ch. Rosner,Shu-Nan Ruan,H. Sang,A. Sarantsev,Y. Schelhaas,C. Schnier,K. Schoenning,Marco Scodeggio,Kun Shan,Wenbo Shan,X. Y. Shen,Ju Shangguan,Ling Shao,M. Shao,C. P. Shen,H Shen,Xiaoyuan Chen,Baoping Shi,Hongliang Shi,R. S. Shi,X Y Shi,W. H. Song,S. Sosio,S. Spataro,Frank Stieler,K.‐X. Su,P. P. Su,Y. Su,Ge Sun,J. F. Sun,L. Sun,Ting Sun,W. Y. Sun,X. Sun,Yi Sun,Z. Sun,Y. H. Tan,Yanliang Tan,Chunming Tang,G. Y. Tang,LR Tao,Q. Tao,Jia-Xiu Teng,Viktor Thorén,W.H. Tian,Y M Tian,I. Uman,B. Wang,Bo Wang,C. W. Wang,D. Y. Wang,F. R. Wang,H. J. Yang,H. Wang,Ke Wang,Li Wang,W. H. Wang,M. Z. Wang,Meng Wang,S. T. Wang,Ti Wang,Wu Wang,X. Wang,X. F. Wang,X L Wang,Yi Wang,Yu Wang,Yong Wang,Yi Wang,Z.G. Wang,Z. Y. Wang,Zhiyi Wang,D.H. Wei,F. Weidner,S. P. Wen,D. J. White,Ulrich Wiesner,G. Wilkinson,Magnus Wolke,L. Wollenberg,J. Wu,X. Wu,Y Wu,L. G. Xia,Tia Xiang,D. Xiao,Guifeng Xiao,Haipeng Xiao,Shuyuan Xiao,Z. Xiao,Chao Xie,X. H. Xie,Yi Xie,Z Xie,T. Y. Xing,G F Xu,Q. J. Xu,X. P. Xu,Y C Xu,Z P Xu,Feng Yan,W. B. Yan,Wangcheng Yan,H. J. Yang,H. L. Yang,Lu Yang,S. Yang,Y.F. Yang,Yi Yang,Yifan Yang,M. H. Ye,J. H. Yin,Z. Y. You,B. X. Yu,G. W. Yu,T. Yu,C. Z. Yuan,Liping Yu,Shiwen Yuan,Xunling Yuan,Z. Yuan,Chun-Xiao Yue,A. A. Zafar,F. R. Zeng,Xin Zeng,Yiping Zeng,Yu-Hua Zhan,A. Zhang,Bo Zhang,D. H. Zhang,G. Y. Zhang,H. Zhang,H. M. Zhang,J. X. Zhang,J. Y. Zhang,J. H. Zhang,Jianyu Zhang,Jiawei Zhang,L.M. Zhang,Li Zhang,Lei Zhang,Qi Zhang,Shulei Zhang,X. D. Zhang,X M Zhang,X. Y. Zhang,Yi Zhang,Y.H Zhang,Yan Bing Zhang,Yao Zhang,Z. H. Zhang,Z. Y. Zhang,Gang Zhao,J. W. Zhao,J. Zhao,J. Zhao,Ling Zhao,Yi Zhao,Y. Zhao,Z. G. Zhao,Alexey Zhemchugov,Bo Zheng,J. Zheng,Yi Zheng,B. Zhong,Chao Zhang,X. C. Zhong,L. P. Zhou,Xu Zhou,Xiang Zhao,Y. Zhou,Ji Zhu,K. J. Zhu,S. Zhu,Tong Zhu,Y. C. Zhu,Bingsuo Zou,J. H. Zou +467 more
TL;DR: In this paper , the integrated luminosities of data samples collected in the BESIII experiment in 2016-2017 at center-of-mass energies between 4.19 and 4.28 GeV are measured with a precision better than 1% by analyzing large-angle Bhabha scattering events.
Journal ArticleDOI
The critical size of gold nanoparticles for overcoming P-gp mediated multidrug resistance
TL;DR: The critical size of AuNPs for overcoming MDR was identified to be between 4.1 nm and 5.4 nm, which provides a more accurate description of the composite dimension requirements for NanoDDSs that are designed to overcome MDR.