Shelly Peyton | |
Workplaces: | University of Massachusetts Amherst Massachusetts Institute of Technology |
Alma Mater: | University of California, Irvine Northwestern University |
Thesis Title: | Tissue engineering in the cardiovascular system : mechanically tunable biomaterials to direct smooth muscle cell phenotype. |
Thesis Url: | http://www.worldcat.org/oclc/212928781 |
Thesis Year: | 2007 |
Website: | Peyton Lab |
Shelly R. Peyton is an American chemical engineer who is the Armstrong Professional Development Professor in the Department of CHemical Engineering at the University of Massachusetts Amherst. Her research considers the development of biomaterials to investigate metastatic cancer and potential new therapies.
Peyton was an undergraduate student at Northwestern University, where she majored in chemical engineering.[1] She was a member of the ultimate frisbee team.[2] Peyton moved to the University of California, Irvine, where she worked on tissue engineering for the cardiovascular system in the research group of Andy Putnam.[3] [4] Peyton moved to the Massachusetts Institute of Technology where she was appointed a National Institutes of Health Ruth L. Kirschstein Postdoctoral Fellow.[5] At MIT, Peyton was trained in stem cell biology by Linda Griffith.[6] [7] Together they investigated mesenchymal stem cell migration.
In 2011, Peyton joined the University of Massachusetts Amherst, where she established a research program in the design and application of biomaterials. She was made the Barry and Afsaneh Siadat Career Development Fellow in 2012.
Peyton investigated the fundamental mechanisms that underpin metastasis through the engineering of carefully controlled environments. The series of events includes crosstalk between stem cells and tumours, the mobilization of stem cells, the reassembly of pre-metastatic tissue and the movement of circulating stem cells to tissue sites.[8] In particular, Peyton is interested in the role of stem cells in the metastatic spread of breast cancer. She argued that the stem cells remodel the target organ, altering the mechanical properties of the organ before the cancer cells attack. The controlled environments created by Peyton mimic human organs, allowing Peyton to study how cancer cells embedded in these artificial tissues respond to different forms of chemotherapy.[9] Specifically, the three-dimensional tumour spheroids allow Peyton to precisely control and study the response of biological tissue to cancer cells and therapies.
Peyton worked with Sandra Petersen to develop the Postbaccalaureate Research Education Program (PREP), a $1.7 million National Science Foundation program that looks to improve diversity in the biomedical workforce.[10] In particular, PREP provides funding to doctoral students from historically marginalized groups.
Peyton married her wife in 2016.[14] Peyton is involved with various initiatives to support LGBTQIA+ researchers at the University of Massachusetts Amherst and Biomedical Engineering Society, and was encouraged to do so by Naomi Chesler.