Speaker
Prof.
Francis Lin
(University of Manitoba)
Description
Directed cell migration is a complex cellular function that critically mediates a broad range of physiological and pathological processes. Chemical concentration gradient and electric field are two important guidance cues for many cell types such as immune cells, metastatic cancer cells, adult stem cells and neurons. Microfluidic devices can precisely configure cellular microenvironments and therefore have been increasingly employed to investigate the mechanism of directed cell migration and to manipulate migratory cells. In this short talk, I will briefly discuss our recent work in on-chip evaluation and manipulation of cell migration in response to chemical and electrical cues including 1) application of microfluidic systems for studying the molecular mechanisms of chemotaxis; 2) development of an all-on-chip method for rapid chemotaxis analysis; 3) microfluidic selection of therapeutic stem cells; 4) on-chip characterizations of immune-cancer cell migratory interactions.
Author
Prof.
Francis Lin
(University of Manitoba)
Co-authors
Prof.
Aaron Marshall
(University of Manitoba)
Dr
Ganghong Tian
(National Research Council of Canada)
Dr
Hagit Peretz-Soroka
(University of Manitoba)
Mr
Jiandong Wu
(University of Manitoba)
Ms
Kanmani Natarajan
(University of Manitoba)
Dr
Susy Santos
(South Winnipeg Integrated Health & Social Services)
Prof.
Xueling Cui
(Jilin University & University of Manitoba)
Ms
Xun Wu
(University of Manitoba)
