NSF-Backed DC I-Corps Kicks Off First Cohort with 20 Federal Laboratory, University and Regional Inventors, Entrepreneur Teams

Silicon Valley-Tested, Lean Startup-Based Initiative Slated to Train 300 Top Entrepreneurial Research Teams Over Three Years

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Eric Schurr
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COLLEGE PARK, Md.— DC Innovation Corps (I-Corps), the new, National Science Foundation-backed program aimed at translating the region's vibrant research community into successful startups and licensed technologies, kicks off its first cohort this week at the George Washington University with 20 teams of inventors and current and aspiring entrepreneurs.

The cohort launches with a diverse mix of teams from the Children's National Medical Center, Johns Hopkins University, University of Maryland, the George Washington University, Virginia Tech, George Mason University, and regional entrepreneurs from the Emerging Technology Center, Maryland Technology Enterprise Institute (Mtech) and bwtech@UMBC.

DC I-Corps guides entrepreneurial teams through an intense, seven-week program based upon the Silicon Valley-tested Lean Startup Model, which emphasizes developing a Minimal Viable Product, gathering extensive feedback from potential customers (a minimum of 100), pivoting and iterating. Teams seek a product-market fit for their innovation while developing a repeatable and scalable business model.

"Nothing lays a better foundation and prepares startups for the rapid change and challenges of the 21st century than the Lean Startup Model," said DC I-Corps Director Edmund Pendleton. "We believe that combining this methodology with the research churning from world-class universities and federal laboratories in this region is the equivalent of releasing lightning from a bottle. Great companies that bolster the region's economy and bring important products into our lives are bound to emerge."

Teams selected for DC I-Corps, segmented by institution, with brief descriptions of the technologies they are developing and entrepreneurial lead, include:

Children's National Medical Center

  • ChronoKair: comprehensive healthcare smartphone/tablet application covering a patient's entire hospital course. Entrepreneurial Lead: Kelly Swords, urologist and pediatric urology fellow and adjunct faculty, the George Washington University.

  • Shoulder and Hip Arthrography Robot: small and lightweight robot for shoulder and hip medical procedures. Entrepreneurial Lead: Reza Seifabadi, Joseph E. Robert Fellow at the Sheikh Zayed Institute for Pediatric Surgical Innovation.

  • Smartpupillometer: smart phone application for measuring pupil size and reactivity in different clinical settings. Entrepreneurial Lead: Mariana Mafra Junqueira, anesthesiologist and pediatrician, and Joseph E. Robert Fellow at the Sheikh Zayed Institute for Pediatric Surgical Innovation.

Emerging Technology Center

  • Tutela Industries: interactive patient engagement platform that employs a patient engagement approach with the ultimate goal of improving short and long-term outcomes for babies in the neonatal intensive care unit. Entrepreneurial Lead: Karen Alder, vice president.

George Mason University

  • High Score Educational: 3D gaming application for science teachers. Entrepreneurial Lead: Len Annetta, professor.

The George Washington University

  • CloudAdvisor: system for predicting virtual machine cloud performance and recommending public cloud instances. Entrepreneurial Lead: Ahsen Uppal, senior software engineer.

  • Key Orthopedics: 3D-printed polymer device for growing stem cells in bone and cartilage tissue. Entrepreneurial Lead: Benjamin Holmes, Ph.D student.

  • NanoChon: joint injury therapeutic technologies for extended and sustained biologic delivery. Entrepreneurial Lead: Nathan Castro, Ph.D. student.

  • Small Spacecraft Micropropulsion: advanced micro-cathode arc thruster for small satellites. Entrepreneurial Lead: Samudra Haque, Ph.D. student.

  • ToxSpec: low-cost, rapid method for predicting pharmaceutical compound activity and toxicity. Entrepreneurial Lead: Nan An, Ph.D. student.

Johns Hopkins University

  • Read Ahead: ocular training method for seeing ahead when learning to read music. Entrepreneurial Lead: Travis Hardaway, adjunct faculty, Peabody Institute.


  • Astrapi Corporation: advanced coding technology for improving broadband and wireless communications. Entrepreneurial Lead: David Shaw, senior vice president.

  • Awarables: solution for measuring sleep disorders in pediatric and aging populations. Entrepreneurial Lead: Madhvi Upender, scientist and entrepreneur.

  • Autonomous Marine Systems: autonomous sailing catamaran for ocean surveillance. Entrepreneurial Lead: T.J. Edwards, partner and mechanical engineer.

University of Maryland, Baltimore County Cyber Incubator@bwtech

  • Surveillant: advanced compliance and checklist software for government, financial, security and related sectors. Entrepreneurial Lead: Jeehye Yun, founder and CEO.

University of Maryland, College Park

  • Diagnostic anSERS Inc.: molecular fingerprinting technology for forensics and chemical analysis. Entrepreneurial Lead: Sean Virgile, Ph.D student.

  • Myotherapeutics: clinical assay for Amyotrophic Lateral Sclerosis (ALS), also known as Lou Gehrig's disease. Entrepreneurial Lead: Eva Chin, assistant professor.

  • N5 Sensors Inc.: chemical sensors for industrial and environmental monitoring. Entrepreneurial Lead: Jonathan George, Ph.D. student, the George Washington University.

  • XiaoQi': medical device for detecting hemoglobin and oxygen in oral and internal organ lesion tissues. Entrepreneurial Lead: Hsing-Wen Wang, visiting research assistant professor.

Virginia Tech

  • Dynamic Safety Systems: worker safety system with online reporting tools and data analysis. Entrepreneurial Lead: Brady Redfearn, graduate student.

A joint effort of the University of Maryland, the George Washington University and Virginia Tech, DC I-Corps focuses on innovations coming from engineering fields, medical/health/life sciences, and physical and computer sciences. The program builds upon the successful National Science Foundation (NSF) I-Corps initiative, but expands its scope to cover researchers and technologists with no prior NSF affiliation or support.

DC-I-Corps partners supporting the program and/or providing mentors include FounderCorpsUM VenturesTEDCOCenter for Innovative TechnologyINNoVATEFederal Lab ConsortiumRoanoke – Blacksburg Technology CouncilACTiVATE®Maryland Intellectual Property Legal Resource CenterSpringboard Enterprisesthe George Washington University Office of EntrepreneurshipVirginia Tech School of EngineeringUniversity of Maryland James Clark School of EngineeringUniversity of Maryland Academy for Innovation and Entrepreneurship and Maryland Technology Enterprise Institute (Mtech).

DC I-Corps is part of a national network of five nodes across the country selected by NSF with additional nodes in Silicon Valley, New York, Atlanta, and Ann Arbor.

More than 200 teams have gone through the I-Corps program; that number is expected to hit 300 by Spring 2014. I-Corps teams completing the program and applying for NSF SBIR Phase I grants have seen a 60 percent award rate compared to a historical one in six average. Poor market and commercialization understanding are cited as the most common reason for rejection.  

An additional DC I-Corps cohort customized for National Institutes of Health (NIH) researchers will commence on November 4 on the NIH campus in conjunction with the NIH Office of Technology Transfer and BioHealth Innovation Inc. (BHI).

About DC I-Corps (
DC I-Corps is a regional program designed to foster, grow and nurture an innovation ecosystem in the nation’s capital, the nearby states of Maryland and Virginia, and the mid-Atlantic region. The program is sponsored by the National Science Foundation (NSF) and jointly run by the University of Maryland College Park, the George Washington University, and Virginia Tech. The program provides real world, hands-on training on how to successfully incorporate innovations into successful products. The ultimate goal is to create a new venture or licensing opportunity for program participants.

About the A. James Clark School of Engineering

The University of Maryland’s A. James Clark School of Engineering is a premier program, ranked among the top 20 in the world. Located just a few miles from Washington, D.C., the Clark School is at the center of a constellation of high-tech companies and federal laboratories, offering students and faculty access to unique professional opportunities.

Our broad spectrum of academic programs, including the world’s only accredited undergraduate fire protection engineering program, is complemented by a vibrant entrepreneurial ecosystem, early hands-on educational experiences, and participation in national and international competitions.

The Clark School is leading research advancements in aerospace, bioengineering, robotics, nanotechnology, disaster resilience, energy and sustainability, and cybersecurity. From the universal product code to satellite radio, SMS text messaging to the implantable insulin pump, our students, faculty, and alumni are engineering life-changing innovations for millions. Learn more at



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