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Cited by in CrossRef
For: Guan X, Peng JR, Yuan L, Wang H, Wei YH, Leng XS. A novel, rapid strategy to form dendritomas from human dendritic cells and hepatocellular carcinoma cell line HCCLM3 cells using mature dendritic cells derived from human peripheral blood CD14+ monocytes within 48 hours of in vitro culture. World J Gastroenterol 2004; 10(24): 3564-3568 [PMID: 15534907 DOI: 10.3748/wjg.v10.i24.3564]
URL: https://www.wjgnet.com/1007-9327/full/v10/i24/3564.htm
Number Citing Articles
1
M.M. Aloysius, A. Takhar, A. Robins, O. Eremin. Dendritic cell biology, dysfunction and immunotherapy in gastrointestinal cancersThe Surgeon 2006; 4(4): 195 doi: 10.1016/S1479-666X(06)80061-2
2
Lauren C. Kimlin, Giovanna Casagrande, Victoria M. Virador. In vitro three‐dimensional (3D) models in cancer research: An updateMolecular Carcinogenesis 2013; 52(3): 167 doi: 10.1002/mc.21844
3
Keisuke Hikosaka, Hidenao Noritake, Wataru Kimura, Nishat Sultana, Mohammad T.K. Sharkar, Yoh-ichi Tagawa, Tadayoshi Uezato, Yoshimasa Kobayashi, Takaji Wakita, Naoyuki Miura. Expression of human factors CD81, claudin-1, scavenger receptor, and occludin in mouse hepatocytes does not confer susceptibility to HCV entryBiomedical Research 2011; 32(2): 143 doi: 10.2220/biomedres.32.143
4
Bahare Shokoohian, Babak Negahdari, Hamidreza Aboulkheyr Es, Manuchehr Abedi‐Valugerdi, Kaveh Baghaei, Tarun Agarwal, Tapas Kumar Maiti, Moustapha Hassan, Mustapha Najimi, Massoud Vosough. Advanced therapeutic modalities in hepatocellular carcinoma: Novel insightsJournal of Cellular and Molecular Medicine 2021; 25(18): 8602 doi: 10.1111/jcmm.16875
5
A.E. Guardino, R. Rajapaksa, K.H. Ong, K. Sheehan, R. Levy. Production of myeloid dendritic cells (DC) pulsed with tumor-specific idiotype protein for vaccination of patients with multiple myelomaCytotherapy 2006; 8(3): 277 doi: 10.1080/14653240600735701
6
P. Kvistborg, M. Boegh, A.W. Pedersen, M.H. Claesson, M.B. Zocca. Fast generation of dendritic cellsCellular Immunology 2009; 260(1): 56 doi: 10.1016/j.cellimm.2009.09.003
7
P. Wongyanin, S. Buranapraditkun, K. Chokeshai-usaha, R. Thanawonguwech, S. Suradhat. Induction of inducible CD4+CD25+Foxp3+ regulatory T lymphocytes by porcine reproductive and respiratory syndrome virus (PRRSV)Veterinary Immunology and Immunopathology 2010; 133(2-4): 170 doi: 10.1016/j.vetimm.2009.07.012
8
Mark M. Aloysius, Richard A. Robins, Oleg Eremin. Dendritic Cells in Cancer2009; : 331 doi: 10.1007/978-0-387-88611-4_22
9
Xing Liu, Baochao Fan, Juan Bai, Haiyan Wang, Yufeng Li, Ping Jiang. The N-N non-covalent domain of the nucleocapsid protein of type 2 porcine reproductive and respiratory syndrome virus enhances induction of IL-10 expressionJournal of General Virology 2015; 96(6): 1276 doi: 10.1099/vir.0.000061
10
B. Giri, A. Gomes, A. Debnath, A. Saha, A.K. Biswas, S.C. Dasgupta, A. Gomes. Antiproliferative, cytotoxic and apoptogenic activity of Indian toad (Bufo melanostictus, Schneider) skin extract on U937 and K562 cellsToxicon 2006; 48(4): 388 doi: 10.1016/j.toxicon.2006.06.011
11
Detlef Ritter, Jan Knebel, Tanja Hansen, Anne Zifle, Anne Fuchs, Rolf Fautz, Katharina Schwarz. Development of a non-target strategy for evaluation of potential biological effects of inhalable aerosols generated during purposeful room conditioning using an in vitro inhalation model Inhalation Toxicology 2023; 35(11-12): 271 doi: 10.1080/08958378.2023.2267618
12
Xi Chen, Qiaoya Zhang, Juan Bai, Yongxiang Zhao, Xianwei Wang, Haiyan Wang, Ping Jiang, Julie K. Pfeiffer. The Nucleocapsid Protein and Nonstructural Protein 10 of Highly Pathogenic Porcine Reproductive and Respiratory Syndrome Virus Enhance CD83 Production via NF-κB and Sp1 Signaling PathwaysJournal of Virology 2017; 91(18) doi: 10.1128/JVI.00986-17