Nayoung Lee Louie, PhD


Academic Discipline: Management & Organization

Phone: 410-234-9318



Nayoung Lee Louie (PhD, Biomedical Engineering, Johns Hopkins University School of Medicine) has been a part of the Carey Business School’s Discovery to Market project since 2010. Her research is in the field of brain imaging and computational anatomy.  She collaborated with researchers at UCLA, Northwestern University and University of New South Wales in Australia.  She also worked at a start-up biotech company specializing in the adult stem cell technology as a medical consultant.

Honors & Distinctions

  • National Science Foundation Neuroengineering Summer Research fellow, University of Washington in Saint Louis
  • Howard Hughes Summer Research fellow, University of California, Los Angeles
  • Susan T. and James H. Bankard, Sr. Research Award

Selected Publications

  • Louie, N. L. and Gordon T.A.,“Discovery to Market- Business, Humanity and Technology.” Open 2013: NCIIA’s 17th Annual Conference, March 2013
  • Lee, N. A., Priebe, C. E., Miller, M. I., and Ratnanather, J. T., “Validation of alternating Kernel mixture method: application to tissue segmentation of cortical and subcortical structures”. J Biomed Biotechnol (2008), 346129
  • Lee, N.A. and Mori, S., “DTI analysis of pediatric populations using landmark-based approach.” Workshop at Int Conf Med Image Comput Comput Assist Interv. Imaging  the Early Developing Brain: Challenges and Potential Impact, Sep 2008
  • Miller, M.I., M. Hosakere, A.R. Barker, C.E. Priebe, N. Lee, J.T. Ratnanather, L. Wang, M. Gado, J.C. Morris, and J.G. Csernansky. "Labeled cortical mantle distance maps of the cingulate quantify differences between dementia of the Alzheimer type and healthy aging". Proceedings of the National Academy of Sciences 100. 25 (2003):15172-15177
  • Ratnanather, J.T., P.E. Barta, N.A. Honeycutt, N.A. Lee, H.M. Morris, A.C. Dziorny, M.K. Hurdal, G.D. Pearlson, and M.I. Miller. "Dynamic Programming Generation of Boundaries of Local Coordinatized Submanifolds in the Neocortex: Application to the Planum Temporale". NeuroImage 20. 1 (2003):359-377