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ProfusaLast week at CES, South San Francisco based Profusa showed off an upcoming injectable sensor that can be used to continuously monitor oxygen levels in tissue. Measuring only five millimeters long and a tiny 250 microns in diameter, the biosensor can be injected into tissue with just a hypodermic needle. It consists of a soft hydrogel scaffold that allows it to be biologically compatible with the surrounding tissue without any foreign body response. The sensor also contains a special chemical marker that changes fluorescence depending on the amount of oxygen that reacts with it. An optical reader placed on the skin measures the fluorescence and relays the data to a smartphone. The biosensor can last as long as two years (at which point the chemical marker begins to lose its potency), and because it contains no electronics and is completely biocompatible there’s no need to remove it.

On stage at the CES Digital Health Summit, Profusa CEO Dr. Ben Hwang gave a live demonstration of how the sensor works in action. As two of his colleagues with the sensors implanted and using a blood pressure cuffs performed stretches to simulate changes in blood flow, a graph displayed the live view of the changing tissue oxygen levels at the site of the sensors.

We had the opportunity to talk to Dr. Hwang after his talk, and he shared that the first application of the sensor is the Lumee Oxygen Sensing System, which is designed to monitor oxygen levels during the wound healing process. Sufficient oxygen flow through a wound is vital to the healing process, and Lumee can detect low oxygen levels early in the healing process and even before treatment or surgery begins.

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Sharing my recent posting that I did on Linkedin Pulse. I will admit that I purposely delayed this article in concerns of creating a panic; however, with the progress that has been occuring across the globe and in some cases accelerated the maturity of this technology; I believe it is time for governments, industries, etc. to start thinking about their own broader strategic plans around Quantum as well as how they will address any impacts.


Quantum Computing is making great progress in so many areas such as chips, network/ Internet, etc. each month. And, many industries such as financials, telecom, tech, and public sector namely defense and space, etc. have made big investments in this technology as well as have developed some interesting partnerships such as Wall Street. Everything looks so promising and exciting for our future when we look at the various ways how Quantum Computing can change our lives around AI, improving the medical technologies, how we interact with devices (wearables, VR, etc.), and even how we travel will advance through this technology. The future looks extremely rosy and bright; right?.

I believe it can be with Quantum; however, in every major shift/ disruption in technology, there is always a transformation progression that has to naturally occur thru stages. And, Quantum is no different; however, the disruption that Quantum will bring is going to be on a much more massive scale than what we have seen in the past. The reason why is Quantum is truly going to impact and improve every area of technology not just in devices, or a platform, AI, VR, etc.; I mean everything in technology will be changed and improved by Quantum over time.

Granted this will not be like a major change overnight like we saw with the iPhone, etc. This initial change will occur over a series of years possibly over the next 7 to 10 years. As each country continues to accelerate in their own efforts to be a fully Quantumized; we need to understand where the potential risks exist and have a good plan for how we plan to address our own risks and challenges during and after this transformation.

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Everyone today claims they are a digital disruptor or have AI; even if they have call forwarding on their Skype phone thay claim to have AI. So, I do believe there do needs to be better standardized definitions around some of these terms in order to keep confusion down plus not comprimise the real value that these areas bring into the marketplace.


When we talk about artificial intelligence (AI) — which we have done lot recently — what do we actually mean? AI experts and philosophers are beavering away on the issue. But having a usable definition of AI – and soon — is vital for regulation and governance because laws and policies simply will not operate without one.

Creepy robots image from Shutterstock.

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“Apple Inc. has purchased Emotient Inc., a startup that uses artificial-intelligence technology to read people’s emotions by analyzing facial expressions.”

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Remember when a cheap $60 wireless router was all your home needed? We were so naive back then. When everything from your phone to your fridge is on your home network, you need a little more wi-fi horsepower. So TP-Link is introducing the first wireless router with blazing 802.11ad.

For the uninitiated, the 802.11ad protocol adds yet another band of spectrum in the 57-66GHz range (depending on what part of the world you live in) in addition to the 2.4GHz and 5GHz bands that 802.11ac routers use now.

There’s quite a few technical reasons as to why the jump to 60GHz is a good thing, but the most important for the average consumer is speed. The 5GHz band maxes out at 1,733Mbps, but the new 60GHz band can achieve wireless transfer speeds of up to 4,600Mbps. So streaming 4K video without a network cable? Not a problem.

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