Fitbit joins research into Covid-19 tracking
- June 15, 2020
- imc
Fitbit is collaborating with the Scripps Research Institute and Stanford Medicine on research aimed at using Fitbit data to help detect, track and contain infectious diseases such as Covid-19.
They have formed a research consortium and are inviting other institutions to join in this collective effort and share key learnings with the research community.
Early detection is critical for effective public health response to infectious disease outbreaks. There has already been early evidence that wearables, such as Fitbit devices, have the potential to help predict the onset of an infectious disease such as the flu before symptoms start, and the goal of this consortium is to unlock similar potential via research institutions in response to Covid-19.
“Fitbit is proud to work with Scripps Research and Stanford, which both have a long history of cutting-edge research in the area of wearables and infectious disease detection,” said James Park, co-founder and CEO of Fitbit. “By bringing together these and other leaders in scientific research, we hope to rapidly advance science and innovation in the fight against Covid-19 by promoting consumer participation in critical research efforts, supporting frontline healthcare workers with donated wearable devices, and sharing learnings quickly and openly across research partners.”
The consortium brings together research already underway by both Scripps and Stanford. The Scripps Research Translational Institute recently launched Detect, an app-based research programme that will analyse participants’ wearable health data – including heart rate, sleep and activity levels – to detect more quickly the emergence of influenza, coronavirus and other fast-spreading viral illnesses.
“From our previously published work, we know that data collected from consumer wearables can significantly improve the prediction of influenza-like illness,” said Eric Topol, director and founder of the Scripps Research Translational Institute. “We see an enormous opportunity to enhance disease tracking for improved population health during the Covid-19 pandemic, and are pleased to join this new consortium to bring value to the research community.”
The Stanford Healthcare Innovation lab launched a Covid-19 wearables study, led by Michael Snyder, chair of the department of genetics and director of the Center for Genomics & Personalized Medicine at the Stanford University School of Medicine. The study aims to establish whether data collected from wearables can be used to predict the onset of an infectious disease such as Covid-19 before the actual symptoms start. Researchers are collecting data such as heart rate, skin temperature and blood oxygen saturation, among others.
“Covid-19 has presented a daunting challenge to medical researchers around the globe,” said Snyder. “Through this consortium, we’ll coordinate efforts to improve our understanding of how technology can serve to benefit human health, and continue the pioneering work we’ve led for the past decade exploring the promise of personalised medicine to predict and prevent disease.”
Research studies will run independently, but information will be aggregated and broad data access supported to promote shared learning and development. Fitbit will support the research community by driving consumer awareness of this research and providing its users with an easy onramp to join the effort.
Fitbit will donate wearables to both research groups to support frontline healthcare workers. Participation in the consortium is open to additional members interested in advancing this type of research and supporting open science
Fitbit users can access information on how to participate in these studies through the new Covid-19 resource tab within the Fitbit mobile app, which also features tools and content to help users stay healthy, safe and happy at home. Users also can virtually connect with a doctor directly from the Fitbit app via telemedicine provider PlushCare and stay up to date on the latest information with access to real-time updates from the World Health Organisation.