Yu-Wen Cheng

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Education

1999 Ph.D. Toxicology, National Taiwan University
1995 M.S. Toxicology, National Taiwan University
1990 B.S. Department of Food Science and Nutrition, Shih Chien University

Experience

2016-2017 Professor, Ph.D. Program in Drug Discovery and Development Industry, Taipei Medical University
2013- Ph.D. Program in Clinical Drug Development of Herbal Medicine, Taipei Medical University
2013- Professor, Master Program in Clinical Pharmacogenomics and Pharmacoproteomics, Taipei Medical University
2013- Professor, Department of Pharmaceutical Sciences, Taipei Medical University
2012-2013 Associate Professor, Department of Pharmaceutical Sciences, Taipei Medical University
2005-2012 Associate Professor, School of Pharmacy, Taipei Medical University
2000-2005 Assistant Professor, School of Pharmacy, Taipei Medical University

Research Interests

Drugs Development of Antimucositis and Anticancer.
Drugs Development of Retinopathy and Age-Relative Macular Degeneration Diseases.
Toxicity testing for food, drugs and cosmetics.

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1 Similar Profiles

2 Active
27 Finished

視覺循環抑制劑藉由調控褐紫質堆積對抗藍光誘發之乾性黃斑部病變於離體色素上皮細胞與活體小鼠視網膜之功效探討(1/3)
Cheng, Y.
8/1/23 → 7/31/24
Project: A - Government Institution › b - National Science and Technology Council
112年度【產學合作計畫-藥用真菌猴頭菇與蟬花應用於神經損傷性視網膜病變功效開發】
Cheng, Y.
6/1/23 → 5/31/24
Project: A - Government Institution › b - National Science and Technology Council
Potential Therapeutic Effects of Aza-Pbha on Diabetes Induced Retinopathy through Ahr-Mediated Pathway
Cheng, Y.
8/1/22 → 7/31/23
Project: A - Government Institution › b - National Science and Technology Council
The Potential Therapeutic Mechanisms of Aryl Aromatic Hydrocarbon Receptor in Blue Light-Induced Retinopathy( III )
Cheng, Y.
8/1/22 → 7/31/23
Project: A - Government Institution › b - National Science and Technology Council
組織蛋白去乙醯酶異構酵素應用於藍光誘發之乾性黃斑部病變與其治療機制探討
Cheng, Y.
1/1/22 → 12/31/22
Project: B - Project of TMU › h - Higher Education Sprout Project

90 Article
1 Poster
1 Comment/debate
1 Review article

Activation of aryl hydrocarbon receptor by azatyrosine-phenylbutyric hydroxamide inhibits progression of diabetic retinopathy mice
Fitriana, I., Wu, C. H., Hsu, T. J., Chan, Y. J., Li, C. H., Lee, C. C., Hsiao, G. & Cheng, Y. W., Sept 2023, In: Biochemical Pharmacology. 215, 115700.
Research output: Contribution to journal › Article › peer-review
Blue light exposure collapses the inner blood-retinal barrier by accelerating endothelial CLDN5 degradation through the disturbance of GNAZ and the activation of ADAM17
Chan, Y. J., Hsiao, G., Wan, W. N., Yang, T. M., Tsai, C. H., Kang, J. J., Lee, Y. C., Fang, T. C., Cheng, Y. W. & Li, C. H., Dec 2023, In: Fluids and Barriers of the CNS. 20, 1, 31.
Research output: Contribution to journal › Article › peer-review

Open Access
Machine learning approaches for predicting 5-year breast cancer survival: A multicenter study
Nguyen, Q. T. N., Nguyen, P. A., Wang, C. J., Phuc, P. T., Lin, R. K., Hung, C. S., Kuo, N. H., Cheng, Y. W., Lin, S. J., Hsieh, Z. Y., Cheng, C. T., Hsu, M. H. & Hsu, J. C., 2023, (Accepted/In press) In: Cancer Science.
Research output: Contribution to journal › Article › peer-review

Open Access
Retinal protection by fungal product theissenolactone B in a sodium iodate-induced AMD model through targeting retinal pigment epithelial matrix metalloproteinase-9 and microglia activity
Lin, F. L., Cheng, Y. W., Chen, L. H., Ho, J. D., Yen, J. L., Wang, M. H., Lee, T. H. & Hsiao, G., Feb 2023, In: Biomedicine and Pharmacotherapy. 158, 114138.
Research output: Contribution to journal › Article › peer-review

Open Access
The HDAC/HSP90 inhibitor G570 attenuated blue light-induced cell migration in RPE cells and neovascularization in mice through decreased VEGF production
Hsu, T. J., Nepali, K., Tsai, C. H., Imtiyaz, Z., Lin, F. L., Hsiao, G., Lai, M. J. & Cheng, Y. W., Jul 2 2021, In: Molecules. 26, 14, 4359.
Research output: Contribution to journal › Article › peer-review

Open Access
2 Citations (Scopus)

Additional file 2 of Titanium dioxide nanoparticles impair the inner blood-retinal barrier and retinal electrophysiology through rapid ADAM17 activation and claudin-5 degradation
Li, C. (Creator), Ho, J. (Contributor), Chan, Y. (Contributor), Chen, C. (Contributor), Cheng, Y. (Creator), Lin, F. (Contributor), Liao, P. (Contributor) & Tsai, C. (Contributor), Figshare, 2021
DOI: 10.6084/m9.figshare.13550761.v1, https://doi.org/10.6084%2Fm9.figshare.13550761.v1
Dataset
Additional file 1 of Titanium dioxide nanoparticles impair the inner blood-retinal barrier and retinal electrophysiology through rapid ADAM17 activation and claudin-5 degradation
Ho, J. (Contributor), Lin, F. (Contributor), Tsai, C. (Contributor), Liao, P. (Contributor), Chan, Y. (Contributor), Cheng, Y. (Creator), Li, C. (Creator) & Chen, C. (Contributor), Figshare, 2021
DOI: 10.6084/m9.figshare.13550758.v1, https://doi.org/10.6084%2Fm9.figshare.13550758.v1
Dataset
MOESM1 of Inhaled gold nanoparticles cause cerebral edema and upregulate endothelial aquaporin 1 expression, involving caveolin 1 dependent repression of extracellular regulated protein kinase activity
Chen, C. (Contributor), Liao, P. (Contributor), Tsai, C. (Contributor), Chan, Y. (Contributor), Cheng, Y. (Contributor), Hwang, L. (Contributor), Lin, K. (Contributor), Yen, T. (Contributor) & Li, C. (Contributor), Unknown Publisher, Oct 16 2019
DOI: 10.6084/m9.figshare.9994028.v1, https://springernature.figshare.com/articles/MOESM1_of_Inhaled_gold_nanoparticles_cause_cerebral_edema_and_upregulate_endothelial_aquaporin_1_expression_involving_caveolin_1_dependent_repression_of_extracellular_regulated_protein_kinase_activity/9994028/1
Dataset
Titanium dioxide nanoparticles impair the inner blood-retinal barrier and retinal electrophysiology through rapid ADAM17 activation and claudin-5 degradation
Chan, Y. (Contributor), Cheng, Y. (Creator), Liao, P. (Contributor), Li, C. (Creator), Lin, F. (Contributor), Ho, J. (Contributor), Chen, C. (Contributor) & Tsai, C. (Contributor), Figshare, 2021
DOI: 10.6084/m9.figshare.c.5263303.v1, https://doi.org/10.6084%2Fm9.figshare.c.5263303.v1
Dataset
Inhaled gold nanoparticles cause cerebral edema and upregulate endothelial aquaporin 1 expression, involving caveolin 1 dependent repression of extracellular regulated protein kinase activity
Chen, C. (Contributor), Liao, P. (Contributor), Tsai, C. (Contributor), Chan, Y. (Contributor), Cheng, Y. (Creator), Hwang, L. (Creator), Lin, K. (Contributor), Yen, T. (Contributor) & Li, C. (Contributor), Figshare, 2019
DOI: 10.6084/m9.figshare.c.4701761.v1, https://springernature.figshare.com/collections/Inhaled_gold_nanoparticles_cause_cerebral_edema_and_upregulate_endothelial_aquaporin_1_expression_involving_caveolin_1_dependent_repression_of_extracellular_regulated_protein_kinase_activity/4701761/1
Dataset

Yu-Wen Cheng

Personal profile

Education

Experience

Research Interests

Fingerprint

Collaborations and top research areas from the last five years

Dive into details

視覺循環抑制劑藉由調控褐紫質堆積對抗藍光誘發之乾性黃斑部病變於離體色素上皮細胞與活體小鼠視網膜之功效探討(1/3)

112年度【產學合作計畫-藥用真菌猴頭菇與蟬花應用於神經損傷性視網膜病變功效開發】

Potential Therapeutic Effects of Aza-Pbha on Diabetes Induced Retinopathy through Ahr-Mediated Pathway

The Potential Therapeutic Mechanisms of Aryl Aromatic Hydrocarbon Receptor in Blue Light-Induced Retinopathy( III )

組織蛋白去乙醯酶異構酵素應用於藍光誘發之乾性黃斑部病變與其治療機制探討

Activation of aryl hydrocarbon receptor by azatyrosine-phenylbutyric hydroxamide inhibits progression of diabetic retinopathy mice

Blue light exposure collapses the inner blood-retinal barrier by accelerating endothelial CLDN5 degradation through the disturbance of GNAZ and the activation of ADAM17

Machine learning approaches for predicting 5-year breast cancer survival: A multicenter study

Retinal protection by fungal product theissenolactone B in a sodium iodate-induced AMD model through targeting retinal pigment epithelial matrix metalloproteinase-9 and microglia activity

The HDAC/HSP90 inhibitor G570 attenuated blue light-induced cell migration in RPE cells and neovascularization in mice through decreased VEGF production

Additional file 2 of Titanium dioxide nanoparticles impair the inner blood-retinal barrier and retinal electrophysiology through rapid ADAM17 activation and claudin-5 degradation

Additional file 1 of Titanium dioxide nanoparticles impair the inner blood-retinal barrier and retinal electrophysiology through rapid ADAM17 activation and claudin-5 degradation

MOESM1 of Inhaled gold nanoparticles cause cerebral edema and upregulate endothelial aquaporin 1 expression, involving caveolin 1 dependent repression of extracellular regulated protein kinase activity

Titanium dioxide nanoparticles impair the inner blood-retinal barrier and retinal electrophysiology through rapid ADAM17 activation and claudin-5 degradation

Inhaled gold nanoparticles cause cerebral edema and upregulate endothelial aquaporin 1 expression, involving caveolin 1 dependent repression of extracellular regulated protein kinase activity

Yu-Wen Cheng

Personal profile

Education

Experience

Research Interests

Fingerprint

Collaborations and top research areas from the last five years

Projects

Research output

Datasets