Download image:

Susan J. Sumner

Director, Systems and Translational Sciences

Susan Sumner is working to make personalized medicine a reality. Using metabolomics, the unique chemical fingerprints that cellular processes leave behind, Sumner assesses differences in the metabotype of individuals that correlate with states of wellness or disease. She is identifying individuals' response to treatment in areas such as obesity, drug-induced liver injury, infectious disease, and reproductive and developmental biology. She is also identifying biomarkers for the early detection and diagnosis of disease to monitor therapeutic treatments and to provide insights into biological mechanisms.

Dr. Sumner is the director of the Systems and Translational Sciences Program in the Discovery Sciences Division at RTI, where she oversees the proteomics and metabolomics cores. In September 2012, Dr. Sumner and her team established the NIH Eastern Regional Comprehensive Metabolomics Resource Core (RTI RCMRC) as part of a $9.3 million dollar grant from the National Institutes of Health (NIH) Common Fund. The RTI RCMRC will work with an NIH-funded consortium to establish nationwide standards that provide consistency in metabolomics data collection and provide quality data for storage in a central data repository and coordinating center.  

Dr. Sumner serves on the editorial boards for Metabolomics, the Journal of Applied Toxicology, the Journal of Toxicology, and the RTI Press, and is an adjunct faculty member in the Brody School of Medicine at East Carolina University, and the Department of Nutrition at the University of North Carolina at Chapel Hill.


PhD, Physical Chemistry, North Carolina State University; BS, Chemistry (Biology minor), North Carolina State University.

Latest Publications

Integrating metabolomic signatures and psychosocial parameters in responsivity to an immersion treatment model for adolescent obesity — Metabolomics
Pathmasiri, W., Pratt, K.J., Collier, D.N., Lutes, L.D., McRitchie, S., & Sumner, S.C.J. (Dec 2012)
Multi-walled carbon nanotube directed gene and protein expression in cultured human aortic endothelial cells is influenced by suspension medium — Toxicology
Vidanapathirana, A.K., Lai, X.Y., Hilderbrand, S.C., Pitzer, J.E., Podila, R., Sumner, S.J., Fennell, T.R., et al. (Dec 2012)
Cardiac ischemic/reperfusion injury response to instilled C60 fullerene
Urankar, R.N., Lust, R.A., Lewin, A.H., Han, L., Sumner, S., Fennell, T.R., et al. (Mar 2012)
Endothelial cell cytotoxicity and activation by C60, multi-walled carbon nanotubes and graphene nanosheets
Brown, J.M., Vidanapathirana, A., Pitzer, J.E., Podila, R., Snyder, R.W., Sumner, S.J., Lewin, A.H., Han, L., Wingard, C.J., Lai, X., Witzmann, F.A., & Fennell, T.R. (Mar 2012)
View all publications by Susan J. Sumner (82)