chloroquine and Prostatic Neoplasms studies

Chloroquine: The prototypical antimalarial agent with a mechanism that is not well understood. It has also been used to treat rheumatoid arthritis, systemic lupus erythematosus, and in the systemic therapy of amebic liver abscesses.
chloroquine : An aminoquinoline that is quinoline which is substituted at position 4 by a [5-(diethylamino)pentan-2-yl]amino group at at position 7 by chlorine. It is used for the treatment of malaria, hepatic amoebiasis, lupus erythematosus, light-sensitive skin eruptions, and rheumatoid arthritis.

Research Excerpts

Excerpt	Relevance	Reference
"Apalutamide (APA) is a next-generation androgen receptor antagonist for the treatment of advanced prostate cancer."	1.72	Apalutamide and autophagy inhibition in a xenograft mouse model of human prostate cancer. ( Baumgartner, V; Eberli, D; Kranzbühler, B; Lehner, F; Prause, L; Preda, S; Salemi, S; Sousa, R, 2022)
"Using HsA on two prostate cancer cell lines, PC-3 and LNCaP cells, the cell analysis and in vivo xenograft model were assayed."	1.62	Inhibition of Autophagy Promotes Hemistepsin A-Induced Apoptosis via Reactive Oxygen Species-Mediated AMPK-Dependent Signaling in Human Prostate Cancer Cells. ( Ahn, SC; Kim, KY; Kim, SC; Kim, YW; Lee, HJ; Park, KI; Yeom, SH; Yun, UJ, 2021)
"Human prostate cancer (DU145) cells were treated with neferine for 18 h, and subsequently treated with TRAIL for 2 h."	1.56	Neferine treatment enhances the TRAIL‑induced apoptosis of human prostate cancer cells via autophagic flux and the JNK pathway. ( Nazim, UM; Park, SY; Yin, H, 2020)
" Therefore, we investigated the characteristics of autophagic response to ARN-509 treatment and evaluated the potential effect of a combination with autophagy inhibition."	1.56	Apalutamide in combination with autophagy inhibitors improves treatment effects in prostate cancer cells. ( Eberli, D; Kranzbühler, B; Mortezavi, A; Salemi, S; Sulser, T, 2020)
"Metastatic prostate cancer cell lines (PC-3 and LNCaP) were treated with Pd (II) complex, CQ, and their combination."	1.56	A promising therapeutic combination for metastatic prostate cancer: Chloroquine as autophagy inhibitor and palladium(II) barbiturate complex. ( Akar, RO; Ari, F; Aydinlik, S; Aztopal, N; Celikler, S; Cevatemre, B; Erkisa, M; Ulukaya, E; Yilmaz, VT, 2020)
"As a model, we treated C4-2 prostate cancer cells with MSKE and performed a quantitative Tandem Mass Tag Isobaric Labeling proteomic analysis."	1.43	Muscadine Grape Skin Extract Induces an Unfolded Protein Response-Mediated Autophagy in Prostate Cancer Cells: A TMT-Based Quantitative Proteomic Analysis. ( Boukli, N; Burton, LJ; Cubano, L; Hawsawi, O; Hudson, T; Odero-Marah, V; Rivera, M; Wang, G; Zhang, Q; Zou, J, 2016)
"Treatment of advanced prostate cancer (PCa) relies on pharmacological or surgical androgen deprivation."	1.39	Androgen deprivation and androgen receptor competition by bicalutamide induce autophagy of hormone-resistant prostate cancer cells and confer resistance to apoptosis. ( Boutin, B; Courtoy, PJ; Gailly, P; Mondin, L; Tajeddine, N; Tombal, B; Van Schoor, M; Vandersmissen, P; Zanou, N, 2013)
"Treatment with imiquimod induced cell cycle arrest at the G2/M phase in TRMPA-C2 cells, confirmed by the changes of G2/M checkpoint regulators such as reduction of cyclin B1 expression and increase of phospho-CDC2 and p21 in TRAMP-C2 cells treated with imiquimod."	1.39	In vitro and in vivo growth inhibition of prostate cancer by the small molecule imiquimod. ( Cho, SD; Choi, ES; Han, JH; Jeon, SJ; Kim, BY; Kim, DJ; Lee, J; Park, JH, 2013)

Timeframe	Studies, this research(%)	All Research%
pre-1990	0 (0.00)	18.7374
1990's	1 (4.17)	18.2507
2000's	2 (8.33)	29.6817
2010's	14 (58.33)	24.3611
2020's	7 (29.17)	2.80

Article	Year
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021

Article	Year
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021

Article	Year
Inhibition of Autophagy Promotes Hemistepsin A-Induced Apoptosis via Reactive Oxygen Species-Mediated AMPK-Dependent Signaling in Human Prostate Cancer Cells. Biomolecules, 2021, 12-01, Volume: 11, Issue:12 Topics: AMP-Activated Protein Kinases; Animals; Autophagy; Cell Line, Tumor; Cell Proliferation; Cell Surviv	2021
Apalutamide and autophagy inhibition in a xenograft mouse model of human prostate cancer. Journal of cancer research and clinical oncology, 2022, Volume: 148, Issue:12 Topics: Androgen Receptor Antagonists; Animals; Apoptosis; Autophagy; Beclin-1; Caspase 3; Cell Line, Tumor;	2022
Neferine treatment enhances the TRAIL‑induced apoptosis of human prostate cancer cells via autophagic flux and the JNK pathway. International journal of oncology, 2020, Volume: 56, Issue:5 Topics: Anthracenes; Autophagy; Benzylisoquinolines; Cell Line, Tumor; Cell Proliferation; Cell Survival; Ch	2020
Apalutamide in combination with autophagy inhibitors improves treatment effects in prostate cancer cells. Urologic oncology, 2020, Volume: 38, Issue:8 Topics: Adenine; Autophagy; Chloroquine; Drug Combinations; Drug Screening Assays, Antitumor; Humans; Male;	2020
A promising therapeutic combination for metastatic prostate cancer: Chloroquine as autophagy inhibitor and palladium(II) barbiturate complex. Biochimie, 2020, Volume: 175 Topics: Antineoplastic Combined Chemotherapy Protocols; Apoptosis; Barbiturates; Chloroquine; Coordination C	2020
Suppressed PLIN3 frequently occurs in prostate cancer, promoting docetaxel resistance via intensified autophagy, an event reversed by chloroquine. Medical oncology (Northwood, London, England), 2021, Aug-19, Volume: 38, Issue:10 Topics: Antineoplastic Agents; Autophagy; Cell Line, Tumor; Chloroquine; Docetaxel; Drug Resistance, Neoplas	2021
Androgen deprivation and androgen receptor competition by bicalutamide induce autophagy of hormone-resistant prostate cancer cells and confer resistance to apoptosis. The Prostate, 2013, Volume: 73, Issue:10 Topics: Androgen Antagonists; Anilides; Antineoplastic Agents; Apoptosis; Autophagy; Cell Line, Tumor; Chlor	2013
In vitro and in vivo growth inhibition of prostate cancer by the small molecule imiquimod. International journal of oncology, 2013, Volume: 42, Issue:6 Topics: Aminoquinolines; Animals; Antineoplastic Agents; Apoptosis; Cell Cycle Checkpoints; Cell Line, Tumor	2013
Dual inhibition of autophagy and the AKT pathway in prostate cancer. Autophagy, 2013, Volume: 9, Issue:7 Topics: Adenine; Autophagy; Cell Line, Tumor; Chloroquine; Clinical Trials, Phase I as Topic; Humans; Macrol	2013
Chemoprevention of prostate cancer by d,l-sulforaphane is augmented by pharmacological inhibition of autophagy. Cancer research, 2013, Oct-01, Volume: 73, Issue:19 Topics: Animals; Anticarcinogenic Agents; Antimalarials; Antineoplastic Combined Chemotherapy Protocols; Apo	2013
The inhibition of ferrochelatase enhances 5-aminolevulinic acid-based photodynamic action for prostate cancer. Photodiagnosis and photodynamic therapy, 2013, Volume: 10, Issue:4 Topics: Aminolevulinic Acid; Animals; Apoptosis; Cell Line, Tumor; Chloroquine; Deferoxamine; Drug Synergism	2013
Piperlongumine promotes autophagy via inhibition of Akt/mTOR signalling and mediates cancer cell death. British journal of cancer, 2014, Feb-18, Volume: 110, Issue:4 Topics: Animals; Apoptosis; Autophagy; Breast Neoplasms; Carcinoma, Renal Cell; Cell Line, Tumor; Cell Proli	2014
Autophagy pathway is required for IL-6 induced neuroendocrine differentiation and chemoresistance of prostate cancer LNCaP cells. PloS one, 2014, Volume: 9, Issue:2 Topics: Adenylate Kinase; Androgens; Apoptosis Regulatory Proteins; Autophagy; Beclin-1; Cell Differentiatio	2014
The reverse-mode NCX1 activity inhibitor KB-R7943 promotes prostate cancer cell death by activating the JNK pathway and blocking autophagic flux. Oncotarget, 2016, Jul-05, Volume: 7, Issue:27 Topics: Animals; Apoptosis; Autophagy; Cell Cycle; Cell Line, Tumor; Cell Movement; Cell Survival; Chloroqui	2016
Muscadine Grape Skin Extract Induces an Unfolded Protein Response-Mediated Autophagy in Prostate Cancer Cells: A TMT-Based Quantitative Proteomic Analysis. PloS one, 2016, Volume: 11, Issue:10 Topics: Apoptosis; Autophagy; bcl-2-Associated X Protein; Caspase 12; Caspase 3; Cell Line, Tumor; Chloroqui	2016
Toll-like receptor 9 agonists promote IL-8 and TGF-beta1 production via activation of nuclear factor kappaB in PC-3 cells. Cancer genetics and cytogenetics, 2009, Jul-15, Volume: 192, Issue:2 Topics: Cell Line, Tumor; Cell Nucleus; Chloroquine; Humans; Interleukin-8; Male; NF-kappa B; Oligodeoxyribo	2009
Toll-like receptor 9 agonists up-regulates the expression of cyclooxygenase-2 via activation of NF-kappaB in prostate cancer cells. Molecular biology reports, 2010, Volume: 37, Issue:4 Topics: Cell Line, Tumor; Cell Nucleus; Chloroquine; Cyclooxygenase 1; Cyclooxygenase 2; Dose-Response Relat	2010
Induction of autophagy-dependent apoptosis by the survivin suppressant YM155 in prostate cancer cells. Cancer letters, 2011, Mar-01, Volume: 302, Issue:1 Topics: Apoptosis; Apoptosis Regulatory Proteins; Autophagy; Autophagy-Related Protein 5; Beclin-1; Blotting	2011
Cotargeting stress-activated Hsp27 and autophagy as a combinatorial strategy to amplify endoplasmic reticular stress in prostate cancer. Molecular cancer therapeutics, 2012, Volume: 11, Issue:8 Topics: Animals; Antineoplastic Agents; Apoptosis; Autophagy; Cell Line, Tumor; Chloroquine; Drug Synergism;	2012
Synergistic killing effect of chloroquine and androgen deprivation in LNCaP cells. Biochemical and biophysical research communications, 2012, Aug-24, Volume: 425, Issue:2 Topics: Adenosine Triphosphate; Androgens; Autophagy; Cell Line, Tumor; Cell Nucleus; Chemotherapy, Adjuvant	2012
Blocked autophagy using lysosomotropic agents sensitizes resistant prostate tumor cells to the novel Akt inhibitor AZD5363. Clinical cancer research : an official journal of the American Association for Cancer Research, 2013, Feb-15, Volume: 19, Issue:4 Topics: Autophagy; Cell Cycle; Cell Line, Tumor; Cell Proliferation; Chloroquine; Drug Resistance, Neoplasm;	2013
Toll like receptor-9 agonists stimulate prostate cancer invasion in vitro. The Prostate, 2007, May-15, Volume: 67, Issue:7 Topics: Adjuvants, Immunologic; Antimalarials; Cell Line, Tumor; Chloroquine; DNA, Bacterial; Estradiol; Gen	2007
The effect of monensin and chloroquine on the endocytosis and toxicity of chimeric toxins. Cellular and molecular life sciences : CMLS, 1998, Volume: 54, Issue:8 Topics: Chloroquine; Endocytosis; Humans; Hydrogen-Ion Concentration; Immunotoxins; Intracellular Fluid; Mal	1998

chloroquine and Prostatic Neoplasms

Research Excerpts

Research

Studies (24)

Authors

Reviews

Trials

Other Studies

Authors	Studies
Kim, KY	1
Yun, UJ	1
Yeom, SH	1
Kim, SC	1
Lee, HJ	2
Ahn, SC	1
Park, KI	1
Kim, YW	1
Eberli, D	2
Kranzbühler, B	2
Prause, L	1
Baumgartner, V	1
Preda, S	1
Sousa, R	1
Lehner, F	1
Salemi, S	2
Nazim, UM	1
Yin, H	1
Park, SY	1
Mortezavi, A	1
Sulser, T	1
Erkisa, M	1
Aydinlik, S	1
Cevatemre, B	1
Aztopal, N	1
Akar, RO	1
Celikler, S	1
Yilmaz, VT	1
Ari, F	1
Ulukaya, E	1
Nguépy Keubo, FR	1
Mboua, PC	1
Djifack Tadongfack, T	1
Fokouong Tchoffo, E	1
Tasson Tatang, C	1
Ide Zeuna, J	1
Noupoue, EM	1
Tsoplifack, CB	1
Folefack, GO	1
Kettani, M	1
Bandelier, P	1
Huo, J	1
Li, H	4
Yu, D	1
Arulsamy, N	1
AlAbbad, S	1
Sardot, T	1
Lekashvili, O	1
Decato, D	1
Lelj, F	1
Alexander Ross, JB	1
Rosenberg, E	1
Nazir, H	1
Muthuswamy, N	1
Louis, C	1
Jose, S	1
Prakash, J	1
Buan, MEM	1
Flox, C	1
Chavan, S	1
Shi, X	1
Kauranen, P	1
Kallio, T	1
Maia, G	1
Tammeveski, K	1
Lymperopoulos, N	1
Carcadea, E	1
Veziroglu, E	1
Iranzo, A	1
M Kannan, A	1
Arunamata, A	1
Tacy, TA	1
Kache, S	1
Mainwaring, RD	1
Ma, M	1
Maeda, K	1
Punn, R	1
Noguchi, S	1
Hahn, S	3
Iwasa, Y	3
Ling, J	2
Voccio, JP	2
Kim, Y	3
Song, J	3
Bascuñán, J	2
Chu, Y	1
Tomita, M	1
Cazorla, M	1
Herrera, E	1
Palomeque, E	1
Saud, N	1
Hoplock, LB	1
Lobchuk, MM	1
Lemoine, J	1
Li, X	10
Henson, MA	1
Unsihuay, D	1
Qiu, J	1
Swaroop, S	1
Nagornov, KO	1
Kozhinov, AN	1
Tsybin, YO	1
Kuang, S	1
Laskin, J	1
Zin, NNINM	1
Mohamad, MN	1
Roslan, K	1
Abdul Wafi, S	1
Abdul Moin, NI	1
Alias, A	1
Zakaria, Y	1
Abu-Bakar, N	1
Naveed, A	1
Jilani, K	1
Siddique, AB	1
Akbar, M	1
Riaz, M	1
Mushtaq, Z	1
Sikandar, M	1
Ilyas, S	1
Bibi, I	1
Asghar, A	1
Rasool, G	1
Irfan, M	1
Li, XY	1
Zhao, S	1
Fan, XH	1
Chen, KP	1
Hua, W	1
Liu, ZM	1
Xue, XD	1
Zhou, B	1
Zhang, S	2
Xing, YL	1
Chen, MA	1
Sun, Y	1
Neradilek, MB	1
Wu, XT	1
Zhang, D	2
Huang, W	1
Cui, Y	1
Yang, QQ	1
Li, HW	1
Zhao, XQ	1
Hossein Rashidi, B	1
Tarafdari, A	1
Ghazimirsaeed, ST	1
Shahrokh Tehraninezhad, E	1
Keikha, F	1
Eslami, B	1
Ghazimirsaeed, SM	1
Jafarabadi, M	1
Silvani, Y	1
Lovita, AND	1
Maharani, A	1
Wiyasa, IWA	1
Sujuti, H	1
Ratnawati, R	1
Raras, TYM	1
Lemin, AS	1
Rahman, MM	1
Pangarah, CA	1
Kiyu, A	1
Zeng, C	2
Du, H	1
Lin, D	1
Jalan, D	1
Rubagumya, F	1
Hopman, WM	1
Vanderpuye, V	1
Lopes, G	1
Seruga, B	1
Booth, CM	1
Berry, S	1
Hammad, N	1
Sajo, EA	1
Okunade, KS	1
Olorunfemi, G	1
Rabiu, KA	1
Anorlu, RI	1
Xu, C	2
Xiang, Y	1
Xu, X	1
Zhou, L	2
Dong, X	2
Tang, S	1
Gao, XC	1
Wei, CH	1
Zhang, RG	1
Cai, Q	1
He, Y	1
Tong, F	1
Dong, JH	1
Wu, G	1
Dong, XR	1
Tang, X	1
Tao, F	1
Xiang, W	1
Zhao, Y	2
Jin, L	1
Tao, H	1
Lei, Y	1
Gan, H	1
Huang, Y	1
Chen, Y	3
Chen, L	3
Shan, A	1
Zhao, H	2
Wu, M	2
Ma, Q	1
Wang, J	4
Zhang, E	1
Zhang, J	3
Li, Y	5
Xue, F	1
Deng, L	1
Liu, L	2
Yan, Z	2
Wang, Y	2
Meng, J	1
Chen, G	2
Anastassiadou, M	1
Bernasconi, G	1
Brancato, A	1
Carrasco Cabrera, L	1
Greco, L	1
Jarrah, S	1
Kazocina, A	1
Leuschner, R	1
Magrans, JO	1
Miron, I	1
Nave, S	1
Pedersen, R	1
Reich, H	1
Rojas, A	1
Sacchi, A	1
Santos, M	1
Theobald, A	1
Vagenende, B	1
Verani, A	1
Du, L	1
Liu, X	1
Ren, Y	1
Li, J	7
Li, P	1
Jiao, Q	1
Meng, P	1
Wang, F	2
Wang, YS	1
Wang, C	3
Zhou, X	2
Wang, W	1
Wang, S	2
Hou, J	1
Zhang, A	1
Lv, B	1
Gao, C	1
Pang, D	1
Lu, K	1
Ahmad, NH	1
Wang, L	1
Zhu, J	2
Zhang, L	2
Zhuang, T	1
Tu, J	1
Zhao, Z	1
Qu, Y	1
Yao, H	1
Wang, X	5
Lee, DF	1
Shen, J	3
Wen, L	1
Huang, G	2
Xie, X	1
Zhao, Q	1
Hu, W	1
Zhang, Y	6
Wu, X	1
Lu, J	2
Li, M	1
Li, W	2
Wu, W	1
Du, F	1
Ji, H	1
Yang, X	2
Xu, Z	1
Wan, L	1
Wen, Q	1
Cho, CH	1
Zou, C	1
Xiao, Z	1
Liao, J	1
Su, X	1
Bi, Z	1
Su, Q	1
Huang, H	1
Wei, Y	2
Gao, Y	2
Na, KJ	1
Choi, H	1
Oh, HR	1
Kim, YH	1
Lee, SB	1
Jung, YJ	1
Koh, J	1
Park, S	1
Jeon, YK	1
Chung, DH	1
Paeng, JC	1
Park, IK	1
Kang, CH	1
Cheon, GJ	1
Kang, KW	1
Lee, DS	1
Kim, YT	1
Pajuelo-Lozano, N	1
Alcalá, S	1
Sainz, B	1
Perona, R	1
Sanchez-Perez, I	1
Logotheti, S	1
Marquardt, S	1
Gupta, SK	1
Richter, C	1
Edelhäuser, BAH	1
Engelmann, D	1
Brenmoehl, J	1
Söhnchen, C	1
Murr, N	1
Alpers, M	1
Singh, KP	1
Wolkenhauer, O	1
Heckl, D	1
Spitschak, A	1
Pützer, BM	1
Liao, Y	1
Cheng, J	1
Kong, X	1
Li, S	1
Zhang, M	4
Zhang, H	1
Yang, T	2
Dong, Y	1
Xu, Y	1
Yuan, Z	1
Cao, J	1
Zheng, Y	1
Luo, Z	1
Mei, Z	1
Yao, Y	1
Liu, Z	2
Liang, C	1
Yang, H	1
Song, Y	1
Yu, K	1
Zhu, C	1
Huang, Z	1
Qian, J	1
Ge, J	1
Hu, J	2
Wang, H	2
Liu, Y	4
Mi, Y	1
Kong, H	1
Xi, D	1
Yan, W	1
Luo, X	1
Ning, Q	1
Chang, X	2
Zhang, T	2
Wang, Q	3
Rathore, MG	1
Reddy, K	1
Chen, H	1
Shin, SH	1
Ma, WY	1
Bode, AM	1
Dong, Z	1
Mu, W	1
Liu, C	3
Gao, F	1
Qi, Y	1
Lu, H	1
Zhang, X	4
Cai, X	1
Ji, RY	1
Hou, Y	3
Tian, J	2
Shi, Y	1
Ying, S	1
Tan, M	1
Feng, G	1
Kuang, Y	1
Chen, D	1
Wu, D	3
Zhu, ZQ	1
Tang, HX	1
Shi, ZE	1
Kang, J	1
Liu, Q	2
Qi, J	2
Mu, J	1
Cong, Z	1
Chen, S	2
Fu, D	1
Li, Z	2
Celestrin, CP	1
Rocha, GZ	1
Stein, AM	1
Guadagnini, D	1
Tadelle, RM	1
Saad, MJA	1
Oliveira, AG	1
Bianconi, V	1
Bronzo, P	1
Banach, M	1
Sahebkar, A	1
Mannarino, MR	1
Pirro, M	1
Patsourakos, NG	1
Kouvari, M	1
Kotidis, A	1
Kalantzi, KI	1
Tsoumani, ME	1
Anastasiadis, F	1
Andronikos, P	1
Aslanidou, T	1
Efraimidis, P	1
Georgiopoulos, A	1
Gerakiou, K	1
Grigoriadou-Skouta, E	1
Grigoropoulos, P	1
Hatzopoulos, D	1
Kartalis, A	1
Lyras, A	1
Markatos, G	1
Mikrogeorgiou, A	1
Myroforou, I	1
Orkopoulos, A	1
Pavlidis, P	1
Petras, C	1
Riga, M	1
Skouloudi, M	1
Smyrnioudis, N	1
Thomaidis, K	1
Tsikouri, GE	1
Tsikouris, EI	1
Zisimos, K	1
Vavoulis, P	1
Vitali, MG	1
Vitsas, G	1
Vogiatzidis, C	1
Chantanis, S	1
Fousas, S	1
Panagiotakos, DB	1
Tselepis, AD	1
Jungen, C	1
Alken, FA	1
Eickholt, C	1
Scherschel, K	1
Kuklik, P	1
Klatt, N	1
Schwarzl, J	1
Moser, J	1
Jularic, M	1
Akbulak, RO	1
Schaeffer, B	1
Willems, S	1
Meyer, C	1
Nowak, JK	1
Szczepanik, M	1
Trypuć, M	1
Pogorzelski, A	1
Bobkowski, W	1
Grytczuk, M	1
Minarowska, A	1
Wójciak, R	1
Walkowiak, J	1
Lu, Y	1
Xi, J	1
Li, C	1
Chen, W	2
Hu, X	2
Zhang, F	3
Wei, H	1
Wang, Z	1
Gurzu, S	1
Jung, I	1
Sugimura, H	2
Stefan-van Staden, RI	1
Yamada, H	1
Natsume, H	1
Iwashita, Y	1
Szodorai, R	1
Szederjesi, J	1
Yari, D	1
Ehsanbakhsh, Z	1
Validad, MH	1
Langroudi, FH	1
Esfandiari, H	1
Prager, A	1
Hassanpour, K	1
Kurup, SP	1
Mets-Halgrimson, R	1
Yoon, H	1
Zeid, JL	1
Mets, MB	1
Rahmani, B	1
Araujo-Castillo, RV	1
Culquichicón, C	1
Solis Condor, R	1
Efendi, F	1
Sebayang, SK	1
Astutik, E	1
Hadisuyatmana, S	1
Has, EMM	1
Kuswanto, H	1
Foroutan, T	1
Ahmadi, F	1
Moayer, F	1
Khalvati, S	1
Zhang, Q	3
Lyu, Y	1
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