Heisler points to C8 Mediasensors and its non-invasive continuous glucose monitoring (CGM) device, the HG1-c, as an example of how this technology is still in its infancy. It's a relevant example as Apple has hired several research scientists and engineers from the now defunct company and is presumably using their knowledge to explore bringing CGM to the iWatch.
The HG1-c device relied on Raman spectroscopy to indirectly measure a person's blood glucose level. This technique shines light through the skin in order to excite blood glucose molecules and cause them to vibrate. An optic sensor then analyzes the amount of light reflected off these vibrating molecules and returns a reading that is used to calculate an approximate glucose level.
Though innovative, the technology has flaws that make it impractical for a wrist-worn device. The sensor unit was attached to a belt that was worn around the waist and required a large battery pack to operate. It also needed a gel to accurately measure light levels, which were influenced by ambient sunlight. This sunlight sensitivity was highlighted by former C8 employee Charles Martin, who spoke to Network World.
Yes, the camera sensor had to be shrouded in darkness to function. You have to understand that Raman Spectroscopy is looking for a very faint signal emitted by the glucose molecules. A rough analogy: try to pick out someone's voice in a noisy room. The sunlight was this kind of noise that the camera sensor was not calibrated against. They did try to implement algorithms to discount measurements against sunlight anomalies, but some of the anomaly criteria these algorithms were supposed to detect, overlapped. This made things hard to verify and test on the device.
Apple likely can overcome many of these limitations, but it will take time to transform the technology to the point where it is reliable enough to be used as a diagnostic or monitoring device. Once Apple improves the technology, it will need to receive FDA approval, which is a painstaking process with extensive clinical trials and documentation.
If Apple goes down this route, it could take up to 18 months just to receive approval necessary to sell the device. Given this lengthy approval process and the fact that evidence of Apple earnestly assembling its iWatch biometric research team only started surfacing around early 2013, Heisler believes "the notion that this feature will appear in the first iteration of the device is highly improbable."
Instead of measuring glucose levels, the iWatch may allow users to monitor glucose levels by importing them from a glucose monitoring device or by manually entering them into the accompanying Healthbook app for iOS. Apple is rumored to be working on the health and fitness app, which uses a card-based interface to track vital health statistics such as heart rate, weight and step count.
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