Can Wearables Make Diabetes Management Easier?
The team at Duke’s BIG IDEAs Lab wants to see if wearable sensors can reliably estimate post-meal glucose changes and replace CGM.
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Building the Future of Youth Concussion Research Through Smarter Data
Thanks to pilot funding from the Duke Center for Computational and Digital Health Innovation, Jason Luck and his team taken a major step forward in researching youth head injuries.
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How David Zielinski Brings Extended Reality to Life at Duke
As an augmented reality (AR) and virtual reality (VR) specialist at Duke, David Zielinski often finds himself in the middle of…
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Digital Diagnostics: Noninvasive Technology Is Revolutionizing the Diagnosis of Coronary Artery Disease
Research in the Randles Lab has helped to develop individualized digital twins of patients’ unique blood flow, which enable clinicians to noninvasively evaluate the severity of coronary artery disease and guide treatment decisions.
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Longitudinal Hemodynamic Mapping Framework Is a Breakthrough in Cardiovascular Medicine
To truly understand and treat progressive conditions like cardiovascular disease, we need more than a snapshot — we need the full picture. The pioneering Longitudinal Hemodynamic Mapping Framework (LHMF) — developed in my lab — gives us that longer, more detailed look.
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Extended Reality in Action at Duke: Immersive Technology in Real-World Medicine
Extended reality is already reshaping industries of all kinds — but its most life-changing impact may be in healthcare.
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Wearables in Action: Transforming Patient Care Through Proactive Health Monitoring
At the Duke Center for Computational and Digital Health Innovation, my colleagues and I are exploring how wearables will redefine healthcare, making continuous monitoring the new standard.
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Digital Twins in Healthcare: Revolutionizing Patient Care at Duke
Digital twin technology is transforming industries by creating precise virtual replicas of physical systems—and I’ve seen how its application in healthcare can revolutionize patient care.
