The license agreement between Duke-NUS and Babynostics was facilitated by the Centre for Technology and Development (CTeD), a commercialisation office at Duke-NUS. CTeD works directly with Duke-NUS faculty to discover and de-risk advanced technologies in order to prepare them for commercial readiness as part of the ‘Active Translation Model’ developed at Duke-NUS. The Babynostics agreement represents a significant milestone in the development and commercialisation of fundamental biomedical research conducted at Duke-NUS that promises to lead to improved healthcare outcomes.
In 2014, Duke-NUS’ Professor David Silver published research that, for the first time, established the path and transport system that takes docosahexaenoic acid (DHA) to the brain. This research also confirmed that DHA is needed for proper brain development. Babynostics, founded by Dr Michael Shleifer and Mr. Laurent Benissan of SPRIM Ventures, develops cutting-edge nutritional solutions based on these findings from Prof Silver’s lab.
“The pathway we found could be exploited to deliver the DHA necessary for normal brain growth and function, which we thought could be especially important for pre-term babies,” explained Prof Silver, Deputy Director of the Duke-NUS Cardiovascular and Metabolic Diseases Programme and scientific founder of Babynostics. “One in 10 babies are born premature. When a baby is born pre-term, they typically have not received sufficient DHA during foetal development and run the risk of experiencing brain development problems and other related complications.”
CTeD and Professor Silver have worked together for the past several years to develop and commercialise this important technology.
“We are very excited to have such great Singapore-based expertise now resident in the Babynostics team,” said CTeD Director, Professor David Epstein, whose model is to facilitate start-ups by bringing together Duke-NUS scientists and entrepreneurial partners. “Duke-NUS have found the right partners to take Prof Silver’s work to the next level of clinical application to improve peoples’ health and lives.”
Prof Silver’s research found that LPC-lipids are the chemical form of DHA that are transported to the brain through a transporter protein named Mfsd2a at the blood-brain barrier, which is why measuring and relating their levels to health outcome is needed to ensure sufficient DHA uptake. Babynostics is currently developing diagnostic tests to check lysophospatidylcholine (LPC)-lipids levels. These tests will be administered to pre-term babies and mothers whose foetuses are at risk of not receiving enough DHA, to determine if they need supplements to increase their LPC levels. In addition, Babynostics is scheduled to launch a medical food product for pregnant mothers that will encourage DHA delivery to their foetuses. PrenatalDHA® is scheduled to go on sale in August 2017 and will be available online at http://www.
“The licensing of this IP demonstrates Duke-NUS’ dedication to doing impactful science and translating that science to medical solutions,” said Duke-NUS’ Senior Vice Dean of Research, Professor Patrick Casey. “Prof David Silver led a group of dedicated investigators within Duke-NUS to do groundbreaking research on DHA-delivery, and CTeD accelerated their progress to commercialisation.”