ChE Seminar: Dr. Kristi Anseth
|January 17, 2019
|Dr. Kristi Anseth
|University of Colorado at Boulder
|Attendance required for PhD students
|School or Program:
Department of Chemical and Biological Engineering, University of Colorado at Boulder
- Seminar: Thu. Jan. 17, 2019 from 3:00-4:00 p.m. in FRNY G-140, Watch online: kaltura.com/tiny/660x8
- Panel: Thu. Jan. 17, 2019 from 4:15-5:15 p.m. in FRNY Atrium, Watch online: kaltura.com/tiny/45y5j
"Engineering Materials for 4-D Biology"
Part of the Purdue Engineering Distinguished Lecture Series
Dr. Kristi Anseth earned her BS in Chemical Engineering (with Highest Distinction) from Purdue University in 1992, and her PhD from the University of Colorado in 1994.
Soft Materials for Studying Hard Biological Problems
Our group focuses on the development of biomaterial matrices that can serve as advanced culture systems or in vivo delivery systems for primary cells. We exploit material chemistry as a tool to decipher how cells process signals from the extracellular matrix (ECM), and then use this information to design improved biomaterials that promote tissue regeneration. Specifically, we design synthetic ECM analogs that capture key features of the unique chemistry and physical properties of a cell’s niche—an environment that is not only tissue specific, but can be strikingly heterogeneous and dynamic. Unique to our approach is the ability to create cell-laden matrices in three-dimensional space in which the matrix properties can be changed on demand—so-called 4D biology. Here, our group has focused on the development of photochemical reactions to create tunable cell-laden matrices, for example, the thiol-ene photo-click reaction and complementary photo-clip reactions to introduce and remove biological signals from a complex milieu. These photochemical reactions not only proceed rapidly and with high specificity, but are bio-orthogonal, spatiotemporally controlled, and cytocompatible. This talk will illustrate how we leverage these and other reversible chemistries to create biologically responsive hydrogel matrices, and employ them to study the effects of matricellular signaling on diverse cellular functions and processes. For example, we exploit peptide-crosslinked PEG hydrogels to encapsulate stem cells and study how matrix density, degradability, elasticity, and adhesivity influence migration, proliferation, and differentiation. More recently, we have integrated photodegradable linkers into hydrogels and used these spatiotemporal controlled reactions to direct the growth and differentiation of stem cells into intestinal organoids.
Kristi S. Anseth is the Tisone Distinguished Professor of Chemical and Biological Engineering and Associate Faculty Director of the BioFrontiers Institute at the University of Colorado at Boulder. Her research interests lie at the interface between biology and engineering where she designs new biomaterials for applications in drug delivery and regenerative medicine. Dr. Anseth is an elected member of the National Academy of Engineering (2009), the National Academy of Medicine (2009), the National Academy of Sciences (2013), and the National Academy of Inventors (2016). She is also a Fellow of the American Association for the Advancement of Science, the American Institute for Medical and Biological Engineering, American Institute of Chemical Engineers, and the Materials Research Society. Dr. Anseth currently serves on the Board of Directors of the American Institute of Chemical Engineers, Board of Trustees for the Gordon Research Conferences, and is an editor for Biomacromolecules and Progress in Materials Science. She is a proud alumna of Purdue, receiving her BS in 1992 from the School of Chemical Engineering and an honorary doctorate in 2016.
Learn more about Dr. Kristi Anseth at https://www.colorado.edu/chbe/kristi-s-anseth.