Wei Tan
- Associate Professor
- Biomedical
Office Location: ECES 160
Lab Location: ECCE 128
Research Interests
Cardiovascular Bioengineering, BioMEMS
Dr. Tan鈥檚 laboratory is mainly interested in the interdisciplinary research at the cross-section of nano-materials and material mechanics with vascular medicine. The main research goal of the lab is to improve fundamental understanding as to how biomaterial properties, ranging from nano-scale molecule signaling and mechanics to macro-scale mechanics, play critical roles in remodeling or regenerating blood vessels through local and global regulation of epigenetic environments. Also, in parallel with improved understanding, new therapeutic approaches for cardiovascular diseases are being developed.
Societal Impact
Cardiovascular diseases are the number one cause of death globally. Our research aims to better understand the biomechanical environments that influence the disease progression and the performances of implants or other treatments, thereby creating novel, improved treatment platforms.
Select Publications and Accomplishments
- M. FLOREN, W Tan. 鈥淭hree-dimensional, soft neotissue arrays as high throughput platforms for the interrogation of engineered tissue environments鈥, Biomaterials, 59: 39-52, 2015 (PMID: 25956850)
- S. Sharma, M. FLOREN, Y. DING, KR Stenmark, W. Tan*, S. Bryant *. 鈥淎 photoclickable peptide microarray platform for facile and rapid screening of 3-D tissue microenvironments.鈥 Biomaterials.143:17-28, 2017.
- H. YIN, Y. DING, Y. H., Zhai, W. Tan*, X. Yin*. 鈥淥rthogonal programming of Heterogeneous Micro-mechano-environments and Geometries in Three-Dimensional Bio-stereolithography.鈥 Nature Communication, 9: 4096, 2018
- M. RAFUSE, X. Xu, K. Stenmark, C. P. Neu, X. Yin, W. Tan. 鈥淟ayer-specific arterial micromechanics and microstructure: influences of age, anatomical location, and processing Technique鈥. J. Biomech. 88, 113-121, 2019
- M. Iglesias-Echevarria, L. Durante, R. JOHNSON, M. RAFUSE, Y. DING, W. Bonani, D. Maniglio, W. Tan 鈥淐oaxial PCL/PEG-thiol-ene microfiber with tunable physico-chemical properties for regenerative scaffolds.鈥 Biomaterials Sci., 7, 3640-3651, 2019