Apple Watch has taken a significant step forward with recent developments in blood sugar level monitoring.
When the Apple Watch first launched back in 2015, it was essentially a luxury timepiece with some smart features. Fast-forward to today, and this device now holds FDA approval for several medical applications — a transformation that became one of the most compelling examples of consumer technology evolving into genuine medical infrastructure.
If you’re already using a continuous glucose monitor (CGM), you can access blood sugar readings through integration with your Apple Watch. But here’s the key detail: the watch itself isn’t directly measuring your glucose levels. Instead, it’s acting as a display bridge for existing CGM devices, pulling data from sensors you’re already wearing and presenting it in a convenient wrist-mounted format that eliminates the need to constantly check your phone.
Direct connectivity changes the game for diabetes management
Here’s where things get genuinely exciting for people managing diabetes daily.
Dexcom G7 became the first CGM to connect directly to Apple Watch without requiring constant phone proximity — a breakthrough that eliminates the traditional 33-foot Bluetooth range limitation that previously tethered users to their smartphones. This matters most during swimming workouts when phones can’t be used, hiking adventures in remote areas, or for parents monitoring children’s glucose levels while kids are playing in another room.
Monitoring glucose levels on Apple Watch has been a favorite feature since the Dexcom G5 launched in 2015, but this direct connection is one step closer to true device independence. What’s particularly clever about the G7 system is how it leverages Wi-Fi connectivity to automatically share sensor readings with designated followers — think worried parents or spouses — without requiring the primary user’s phone to be present.
Even more impressive, Dexcom G7 is the only CGM that allows simultaneous connectivity to three display devices, meaning users can monitor their data on their phone, watch, and a partner’s device at the same time.
Apple’s ambitious non-invasive monitoring project
Behind the scenes, Apple has been working on something far more revolutionary than simple CGM integration… technology that could eliminate the need for any external sensors.
The company has been developing non-invasive glucose-tracking technology for over a decade, with roots in Steve Jobs’ original vision for personal health monitoring. This isn’t just about improving existing diabetes care — it’s about creating a world where anyone can monitor their metabolic health as easily as checking their heart rate.
In 2023, Bloomberg reported that Apple reached a major milestone with a working proof-of-concept using optical absorption spectroscopy. The technology shines specific wavelengths of light through skin to measure glucose levels in interstitial fluid — the substance that surrounds your cells.
No needles, no blood draws, no external sensors to replace every two weeks. However, managing expectations is crucial here: this glucose technology remains several years away from commercial viability, despite Apple’s significant progress in overcoming fundamental physics and engineering challenges.
Technical challenges and breakthrough potential
The engineering hurdles Apple faces make this project genuinely moonshot-level ambitious.
Hundreds of engineers work on this project within Apple’s Exploratory Design Group. Think of it as Apple’s version of Google X, but focused specifically on breakthrough health technologies rather than self-driving cars or internet balloons.
The current approach uses silicon photonics chips and lasers that emit specific wavelengths to analyze interstitial fluid beneath the skin. The system is currently at a proof-of-concept stage and needs miniaturization for practical use, with Apple developing a prototype about the size of an iPhone that straps to your bicep.
The challenge isn’t just making it smaller. It’s maintaining medical-grade accuracy while fitting into a wrist-worn form factor that won’t drain battery life in hours.
What gives this project credibility beyond typical tech company health promises is the scope of Apple’s validation work. Apple has tested this technology on hundreds of people over the past decade, including individuals with prediabetes and Type 2 diabetes, methodically comparing results against traditional blood tests to build the accuracy data necessary for eventual FDA approval.
What this means for the future of health monitoring
The convergence of existing CGM integration and Apple’s long-term research signals a period of transformation that extends far beyond current diabetes management.
The competitive landscape shows this isn’t just Apple’s moonshot. Swiss start-up Liom is developing the first non-invasive CGM device, aiming to reach consumers by mid-2027, while non-invasive patches that analyze sweat for glucose and other biomarkers are gaining attention from researchers focused on continuous metabolic monitoring.
Apple’s commitment level suggests they view this as potentially transformative for their entire health platform. Apple has invested hundreds of millions of dollars in this glucose-monitoring project, with senior executives, including CEO Tim Cook and COO Jeff Williams, directly involved in strategic decisions. This level of C-suite engagement typically indicates Apple sees this as a potential category-defining breakthrough rather than just another health feature.
The implications extend well beyond existing diabetes management into the realm of preventive healthcare. The glucose monitoring system could help users identify prediabetic conditions and make lifestyle changes before full diabetes develops.
Imagine receiving gentle notifications about blood sugar trends after specific meals, during different types of exercise, or even during stressful work periods — the kind of personalized metabolic insights that could genuinely prevent chronic disease rather than just managing it.
Editor’s note: This article first appeared on our sister publication, GadgetHacks.
