| Issue Date | Title | Author(s) | Relation | scopus | WOS | Fulltext/Archive link |
1 | 2013 | Therapeutic effects of standardized Wedelia chinensis extract on prostate cancer in vivo | Hsiao, PW ; Tsai, CH; Yang, YC; Lee, MT | | | | |
2 | 2018 | The circuit of oncofetal O-Glycosylation, Galectin-4, RTK, and MYC Drives Metastatic Castration-Resistant Prostate Cancer | Pei-Wen Hsiao | | | | |
3 | 2011 | Research and development of Wedelia chinensis to treat recurrent cancer and metastasis | Hsiao, PW | | | | |
4 | 2017 | MYC Reprograms O-Glycosylation and Primes for Galectin-4-Mediated Prostate Cancer Progression (Poster) | Pei-Wen Hsiao | | | | |
5 | 2012 | Modeling the Metastasis of Prostate Cancer In Vivo | Hsiao, PW ; Tsai, CH; Yang, YC; Lee, MT; Tsai, MH | | | | |
6 | 2014 | Metastatic prostate cancer cells incline to initiate metastasis colonization and inflammation in the lung | Tzeng, SF; Tsai, CH; Lee, MS; Hsiao, PW | | | | |
7 | 2011 | Metastatic Development of Prostate Cancer and Multi-Drug Resistance | Hsiao, PW ; Tsai, CH; Yang, YC; Lee, MT; Tsai, MH | | | | |
8 | 2014 | High malignant prostate cancer cells developed enhanced tumor-initiating /metastatasis-initiating activity and altered the lung microenvironment | Tzeng, SF; Tsai, CH; Lee, MS; Hsiao, PW | | | | |
9 | 2013 | HAI-2 suppresses the tumor growth and metastasis of prostate cancer through regulation of matriptase | Ko, CJ; Tsai, CH; Hsiao, PW ; Lee, MS | | | | |
10 | 2015 | Galectin-4 signaling drives multiple receptor tyrosine kinases, tumorigenicity, and metastasis of prostate cancer | Sheue-Fen Tzeng; Chin-Hsien Tsai; Tai-Kuang Chao; Yu-Chih Yang; Juian-Juian Hwang; Tai-Lung Cha; Mong-Hsun Tsai; Pei-Wen Hsiao | | | | |
11 | 2014 | Extracting multiple effects from herbal medicine to fight prostate cancer in the body | Tsai, CH; Hsiao, PW | | | | |
12 | 2008 | Evidence-based development of Wedelia chinensis toward a botanical for prostate cancer treatment. | Hsiao, PW ; Lin, FM; Tsai, CH; Yang, YC. | | | | |
13 | 2008 | Discovering novel compounds and pathways that interrupt the intracellular activity if androgen receptor in prostate cancer | Hsiao, P. -W ; Lin, F. -M; Tsai, C. -H; Tu, W. -C; Chen, H. -I; Yang, Y. -C; Chen, L. -R. | | | | |
14 | 2008 | Discovering herbal medicine against prostate cancer by interrupting the intracellular activity of androgen receptor | Hsiao, PW ; Lin, FM; Tsai, CH; Yang, YC; To, WC; Chen, LR; Chen, HY | | | | |
15 | 2014 | Cyclooxygenase-2 signaling promotes prostate cancer cell invasion and the activation of matriptase | Ko, CJ; Lu, YC; Lai, PF; Hsiao, PW ; Lee, MS | | | | |
16 | 2015 | Coordinated activation of signaling network in prostate cancer cells toward metastasis. | Tsai, CH; Tzeng, SF; Hsiao, PW | | | | |
17 | 2014 | Characterized herbal extract of Wedelia chinensis suppresses prostate cancer growth and metastasis by targeting multiple intrinsic pathways and modulating immune cells. | Tsai, CH; Tzeng, SF; Hsiao, PW | | | | |
18 | 2018 | Biomarkers distinguishing a subtype of aggressive prostate cancer from indolent and identification of potential new treatments | Pei-Wen Hsiao | | | | |
19 | 2016 | Autonomous galectin-4-O-glycan binding activates receptor tyrosine kinase signaling, stem-like trait, and metastasis of prostate cancer cells | Pei-Wen Hsiao ; Chin-Hsien Tsai; Sheue-Fen Tzeng | | | | |
20 | 2018 | Advancing Cross-protection of Influenza Vaccines by Virus-Like Particle Technology | Pei-Wen Hsiao | | | | |
21 | 2017 | Adjuvant effects of a standardized Wedelia chinensis extract with different therapeutic modalities for advanced prostate cancer (Lecture) | Tsai, Chin-Hsien; Hsieh, Shih-Chuan; Hsiao, Pei-Wen | | | | |
22 | 2017 | Adjuvant effects of a standardized Wedelia chinensis extract on the clinical therapeutic modalities for advanced prostate cancer (Lecture) | Pei-Wen Hsiao ; Chin-Hsien Tsai; Shih-Chuan Hsieh | | | | |
23 | 2017 | A new scenario of prostate cancer progression played by galectin-4 and veteran oncogene actors (Keynote Speech) | Tzeng, Sheue-Fens; Tsai, Chin-Hsien; Hsiao, Pei-Wen | | | | |