Mingming Wu Explained

Mingming Wu is a professor at Cornell University within the Department of Biological and Environmental Engineering, and associate editor of Physical Biology.

Academic career

She earned a bachelor's of science degree from Nanjing University in 1984, and completed a doctorate from Ohio State University in 1992.^[1] Wu split her post doctoral research between École Polytechnique and the University of California, Santa Barbara, before beginning her teaching career at Occidental College. She joined the Cornell University faculty in 2003.^[2] Wu was named a fellow of the American Physical Society in 2016.^[3]

Research

Wu's current work focuses on discovering fundamental principles with which nature use to interact with the environment, in particular, how physical forces regulate cell migration. She is known for developing micro-scale tools controlling cellular environment,^{[4] [5]} and use them to solve contemporary problems in health (tumor invasion and development)^{[6] [7]} and environment (algal blooms).^[8]

Wu researched the interactions between cancer cells and the fibrous extracellular matrix surrounding them.^[9] Wu also worked on a study investigating the diversity of cancer cells with statistical modeling methods.^[10]

External links

• Web site: NSF Award Search: Advanced Search Results - Mingming Wu. National Science Foundation. 2020-10-13.
• Web site: Devices for Studying the Language of Cells. Cornell Research. Caitlin Hayes. 31 May 2018. 2020-10-13.

Notes and References

1. News: Mingming Wu . 20 July 2018 . Cornell University.
2. News: BME Seminar Series: Dr. Mingming Wu, Cornell University . 20 July 2018 . Ohio State University . March 2017.
3. News: Fleischman . Tom . 3 faculty elected fellows of American Physical Society . 20 July 2018 . Cornell Chronicle . 20 October 2016.
4. Cheng. Shing-Yi. Heilman. Steven. Wasserman. Max. Archer. Shivaun. Shuler. Michael L.. Wu. Mingming. 2007. A hydrogel-based microfluidic device for the studies of directed cell migration. Lab on a Chip. en. 7. 6. 763–9. 10.1039/b618463d. 17538719. 1473-0197.
5. Huang. Yu Ling. Segall. Jeffrey E.. Wu. Mingming. 2017. Microfluidic modeling of the biophysical microenvironment in tumor cell invasion. Lab on a Chip. en. 17. 19. 3221–3233. 10.1039/c7lc00623c. 1473-0197. 6007858. 28805874.
6. Proceedings of the National Academy of Sciences. en. 10.1073/pnas. Proceedings of the National Academy of Sciences. 10638657 . 2164/23453. free.
7. Tung. Chih-kuan. Hu. Lian. Fiore. Alyssa G.. Ardon. Florencia. Hickman. Dillon G.. Gilbert. Robert O.. Suarez. Susan S.. Wu. Mingming. 2015-04-28. Microgrooves and fluid flows provide preferential passageways for sperm over pathogen Tritrichomonas foetus. Proceedings of the National Academy of Sciences. 112. 17. 5431–5436. 10.1073/pnas.1500541112. 4418881. 25870286. 2015PNAS..112.5431T. free.
8. Kim. Beum Jun. Richter. Lubna V.. Hatter. Nicholas. Tung. Chih-kuan. Ahner. Beth A.. Wu. Mingming. 2015. An array microhabitat system for high throughput studies of microalgal growth under controlled nutrient gradients. Lab on a Chip. en. 15. 18. 3687–3694. 10.1039/c5lc00727e. 26248065. 1473-0197.
9. Web site: Penn Engineers Calculate Interplay Between Cancer Cells and Environment. Penn Today, University of Pennsylvania. 2016-12-07. 2020-10-13.
10. Web site: Physics tool helps track cancer cell diversity. ScienceDaily. 2020-02-20. 2020-10-13.