MAR 2018

Women in STEM leading Lyme disease research

STEM-Blog-300x300Recently there has been a significant increase in technological advancements in Lyme research, and we have a lot of women to thank for that.

March is women’s history Month and we at are honoring some of the women in STEM (science, technology, engineering, mathematics) who are trailblazers in Lyme and tick-borne disease research.


Monica E. Embers, Ph.D.
Division of Bacteriology and Parasitology
Tulane National Primate Research Center

Dr. Embers is an Assistant Professor in the Division of Bacteriology and Parasitology at Tulane University. She holds a doctorate degree in microbiology and immunology. The focus of her research is on Lyme disease pathogenesis, antibiotic efficiency and developing a test that is capable of differentiating between active infection and cure. She has authored over 80 scientific publications with the most recent providing evidence that Borrelia bacteria are able to survive a standard 28 day course of antibiotics in primates.

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Deanna Needell, Ph.D.
Department of Mathematics
Univ. of California, Los Angeles

Dr. Needell is a professor of Mathematics at UCLA and holds a doctorate degree in Mathematics. She specializes in big data analytics and artificial intelligence techniques. She has authored over 70 scientific journal publications. Recently she received an $800,000 award from the National Science Foundation to develop a novel mathematical technique to analyze the large amount of data collected from’s patient registry, MyLymeData.


Jennifer Mankoff, Ph.D.
Dept. Computer Science & Engineering
University of Washington

Dr. Mankoff is a professor of computer science and engineering at the University of Washington. Previously Mankoff taught at Carnegie Mellon University’s Human Computer Interaction Institute,. Her published research includes over 170 papers and includes a number of studies focusing on the quality of life for patients with Lyme disease and how Lyme disease patients use online information. Most recently, her work has focused on 3D printing and its potential for creating personalized assistive technologies for people with disabilities.


Jennifer C. Miller, Ph.D.
Director of Research and Development
Galaxy Diagnostics, Inc.

Dr. Miller holds a doctorate in microbiology, immunology, and molecular genetics and has spent the past 20 years studying vector-borne and zoonotic pathogens including Borrelia burgdorferi. She leads the clinical assay and diagnostic tests portfolio development at Galaxy Diagnostics. Prior to joining the Galaxy team, Dr. Miller served as an Assistant Professor of microbiology at NC State University, where she developed her own research program and laboratory focused on in vitro and murine studies of vector-borne disease pathogen-host interactions. She has published more than 25 peer reviewed scientific publications with her current research focused on the mechanisms driving Lyme arthritis that will lead to the development of better treatments.


Eva Sapi, Ph.D.
Dept of Biology and Environmental Science
University of New Haven

Dr. Sapi is a Professor and Chair of the Biology and Environmental Science Dept, and Director of the Lyme Disease Research Program at University of New Haven—to date, over 90 graduate students have received training in Lyme disease related research through the research program. She holds a doctorate degree in molecular biology and genetics and has published over 70 peer reviewed scientific papers on the topic Borrelia, how it forms biofilm and the mechanisms by which it evades the immune system. Her most recent research has focused on finding antimicrobial agents that are effective in killing Borrelia in culture.


Jyotsna Shah, Ph.D.
President and Laboratory Director
IGeneX Clinical Laboratory

Dr. Shah holds a doctorate degree in diagnostic immunology and brings over 40 years of research experience in immunology, molecular biology and microbiology, has 48 peer reviewed publications. She is credited with starting the first DNA sequencing laboratory in E. Africa and has become a world expert on use of Fluorescent in Situ Hybridization (FISH) technique for direct detection of pathogens in clinical samples. Recently, she has focused on the development of diagnostic tests that detect different strains of Borrelia and Relapsing Fever.



We salute you!  Keep on keeping on.  We need your work!