Prof. LI Zhong Alan
Assistant Professor, Department of Biomedical Engineering, CUHK
Area of Expertise: organs-on-chips, nanobiomaterials, stem cells, tissue engineering
alanli@cuhk.edu.hk
Tel: 3943 5906
Location: FYB604B
Lab webpage: https://lilabcuhk.com/
About
Alan joined the Department of Biomedical Engineering, The Chinese University of Hong Kong as a Vice-chancellor Assistant Professor in 2022. He worked as a Research Assistant Professor at the Department of Neurobiology, University of Pittsburgh School of Medicine (UPSOM) in 2021, and was a Postdoctoral Associate at UPSOM Department of Orthopaedic Surgery during 2018–2020. Alan obtained his Ph.D. in biomedical ceramics from Nanyang Technological University (NTU) Singapore in 2017 and worked as a Postdoctoral Research Fellow at NTU afterwards. Alan holds a bachelor’s degree in Mechanical Engineering & Automation from South China University of Technology. His primary research interests are in organs-on-chips, nanobiomaterials, and tissue engineering. His research is highly interdisciplinary and interfaces engineering, biology, and medicine. Among other honors, Alan received the Wake Forest Institute for Regenerative Medicine (WFIRM) Young Investigator Award and the Orthopaedic Research Society (ORS) 3Rs Award in 2019 and won the 2016 Young Persons’ World Lecture Competition (YPWLC).
Professional Education and Training
2018–2020 Postdoctoral Associate, University of Pittsburgh School of Medicine
2017 Postdoctoral Research Fellow, Nanyang Technological University, Singapore
2012–2017 Ph.D. in Biomedical Ceramics, Nanyang Technological University, Singapore
2008–2012 B.Eng. in Mechanical Engineering & Automation, South China University of Technology, China
Research Interest
We leverage advanced nanobiomaterials (both inorganic and organic), human stem cells, and state-of-the-art 3D culture platforms to engineer tissues and organs for the following applications: (1) repair and regeneration of diseased human tissues/organs, (2) modeling of human diseases, (3) evaluations of drug safety and efficacy, and (4) development of personalized (precision) medicine.
Course Teaching in CUHK
BMEG2001 Introduction to Biomedical Engineering
BMEG3430 Biomaterials and Tissue Engineering
ENGG 5601 Principles of Biomechanics & Biomaterials
Selected Publications
1. Z. Li, Z. Lin, S. Liu, H. Yagi, X. Zhang, L. Yocum, M. Romero-Lopez, C. Rhee, M.J.
Makarcyzk, I. Yu, E.N. Li, M.R. Fritch, Q. Gao, K.B. Goh, B. O'Donnell, T. Hao, P.G.
Alexander, B. Mahadik, J.P. Fisher, S.B. Goodman, B.A. Bunnell, R.S. Tuan*, H. Lin*,
Human Mesenchymal Stem Cell‐Derived Miniature Joint System for Disease Modeling
and Drug Testing, Adv. Sci., 2022, 9, 2105909. (Back cover)
2. Z.A. Li, S. Sant, S.K. Cho, S.B. Goodman, B.A. Bunnell, R.S. Tuan, M.S Gold, H. Lin*,
Synovial joint-on-a-chip for modeling arthritis: progress, pitfalls and potential, Trends
Biotechnol., 2022, S0167-7799(22)00193-7.
3. Z.A. Li, R.S. Tuan*, Towards establishing human body-on-a-chip systems, Stem Stem Cell
Res. Ther. 2022, 13 (1), 1-5.
4. Z.A. Li, J. Shang, S. Xiang, E.N. Li, H. Yagi, K. Riewruja, H. Lin*, R.S. Tuan*, Articular
Tissue-mimicking organoids derived from mesenchymal stem cells and induced pluripotent
stem cells, Organoids 2022, 1 (2), 135-148.
5. Y. Fan, Z. Li*, Y. He*, Exosomes in the pathogenesis, progression, and treatment of
osteoarthritis, Bioengineering, 2022, 9(3)99.
6. Z. Lin, X. Zhang, M.R. Fritch, Z. Li, B. Kuang, P.G. Alexander, T. Hao, G. Cao, S. Tan,
K.K. Bruce, H. Lin*, Engineering pre-vascularized bone-like tissue from human
mesenchymal stem cells through simulating endochondral ossification, Biomaterials 283
(2022)121451.
7. Z. Li#, S. Xiang#, Z. Lin#, E.N. Li, H. Yagi, G. Cao, L. Yocum, L. Li, T. Hao, K.K. Bruce,
M.R. Fritch, H. Hu, B. Wang, P.G. Alexander, K.A. Khor, R.S. Tuan*, H. Lin*, Graphene
oxide-functionalized nanocomposites promote osteogenesis of human mesenchymal stem
cells via enhancement of BMP-SMAD1/5 signaling pathway, Biomaterials 277 (2021)
121082
8. Yuchen He#, Zhong Li#, Peter G. Alexander#, Brian D Ocasio-Nieves, Lauren Yocum,
Hang Lin*, Rocky S. Tuan*, Pathogenesis of Osteoarthritis: Risk Factors, Regulatory
Pathways in Chondrocytes, and Experimental Models, Biology 9 (2020) 194
9. Z. Li#, T.-W. Goh#, G.H.-F. Yam, B.C. Thompson, H. Hu, M. Setiawan, W. Sun, A.K. Riau,
D.T. Tan, K.A. Khor*, J.S. Mehta*, A sintered graphene/titania material as a synthetic
keratoprosthesis skirt for end-stage corneal disorders, Acta Biomater. 94 (2019) 585-596.
10. Z. Lin, Z. Li, E.N. Li, X. Li, C.J. Del Duke, H. Shen, T. Hao, B. O'Donnell, B.A. Bunnell, S.B.
Goodman, P.G. Alexander, R.S. Tuan*, H. Lin*, Osteochondral tissue chip derived from
iPSCs: modeling OA pathologies and testing drugs, Front. Bioeng. Biotech. 2019, 7, 411.
11. J. Wu#,*, Z. Li#, X. Xie, K. Tao, C. Liu*, K.A. Khor, J. Miao*, L.K. Norford, 3D
superhydrophobic reduced graphene oxide for activated NO2 sensing with enhanced
immunity to humidity, J. Mater. Chem. A 6 (2018) 478-488.
12. Z. Li, S. Bi, B.C. Thompson, R. Li, K.A. Khor*, Multifunctional bioceramic-based composites reinforced with silica-coated carbon nanotube core-shell structures, Ceram. Int. 2017, 43, 16084.
13. Z. Li, X.-Z. Tang, W. Zhu, W. Zhu, B.C. Thompson, M. Huang, J. Yang, X. Hu, K.A. Khor*, Single-step process toward achieving superhydrophobic reduced graphene oxide, ACS Appl. Mater. Interfaces 8 (2016) 10985-10994