Tag Archives: situational awareness

1 Myth, 2 Truths, 5 Hot Trends in Health IT

There is a myth out there that healthcare providers are unwilling to adopt new technology. It’s just not true. In the last few months, I have spoken to dozens of healthcare leaders at hospitals both small and large, and I am amazed at their willingness to understand and adopt technology.

Pretty much every hospital CEO, COO, CMIO or CIO I talk to believes two things:

With growing demand, rising costs and constrained supply, healthcare is facing a crisis unless providers figure out how to “do more with less.”

Technology is a key enabler. There is technology out there to help save more lives, deliver better care, reduce costs and achieve a healthier America. If a technology solution solves a real problem and has a clearly articulated return on investment (ROI), healthcare isn’t that different from any other industry, and the healthcare industry is willing to adopt that technology.

Given my conversations, here are the five biggest IT trends I see in healthcare:

1. Consumerization of the electronic health record (EHR). Love it or hate it, the EHR sits at the center of innovation. Since the passage of the HITECH Act in 2009—a $30 billion effort to transform healthcare delivery through the widespread use of EHRs—the “next generation” EHR is becoming a reality driven by three factors:

  • Providers feeling the pressure to find innovative ways to cut costs and bring more efficiency to healthcare delivery
  • The explosion of “machine-generated” healthcare data from mobile apps, wearables and sensors
  • The “operating terminal” shifting from a desktop to a smartphone/tablet, forcing providers to reimagine how patient care data is produced and consumed

The “next generation” EHR will be built around physicians’ workflows and will make it easier for them to produce and consume data. It will, of course, need to have proper controls in place to make sure data can only be accessed by the right people to ensure privacy and safety. I expect more organizations will adopt the “app store” model Kaiser pioneered so that developers can innovate on their open platform.

2. Interoperability— Lack of system interoperability has made it very hard for providers to adopt new technologies such as data mining, machine learning, image recognition, the Internet of Things and mobile. This is changing fast because:

  • HHS’s mandate for interoperability in all EHRs by 2024 means patient data can be shared across systems to enable better care at lower cost.
  • HITECH incentives and the mandate to move 50% of Medicare payments from fee-for-service to value-based alternatives by 2018 imply care coordination. Interoperability will become imperative.
  • Project Argonaut, an industry-wide effort to create a modern API and data/services sharing between the EHR and other systems using HL7 FHIR, has already made impressive progress.
  • More than 60% of the proposed Stage 3 meaningful use rules require interoperability, up from 33% in Stage 2.

3. Mobile— With more than 50% of patients using their smartphone to monitor health and more than 50% of physicians using (or wanting to use) their smartphone to monitor patient health, and with seamless data sharing on its way, the way care is delivered will truly change.

Telemedicine is showing significant gains in delivering primary care. We will continue to see more adoption of mobile-enabled services for ambulatory and specialty care in 2016 and beyond for three reasons:

  • Mobile provides “situational awareness” to all stakeholders so they can know what’s going on with a patient in an instant and can move the right resources quickly with the push of a button.
  • Mobile-enabled services radically reduce communication overhead, especially when you’re dealing with multiple situations at the same time with urgency and communication is key.
  • The services can significantly improve the patient experience and reduce operating costs. Studies have shown that remote monitoring and mobile post-discharge care can significantly reduce readmissions and unnecessary admissions.

The key hurdle here is regulatory compliance. For example, auto-dialing 9-1-1 if a phone detects a heart attack can be dangerous if not properly done. As with the EHR, mobile services have to be designed around physician workflows and must comply with regulations.

4. Big data— Healthcare has been slower than verticals such as retail to adopt big data technologies, mainly because the ROI has not been very clear to date. With more wins on both the clinical and operational sides, that’s clearly changing. Of all the technology capabilities, big data can have the greatest near-term impact on the clinical and operational sides for providers, and it will be one of the biggest trends in 2016 and beyond. Successful companies providing big data solutions will do three things right:

  • Clean up data as needed: There’s lots of data, but it’s not easy to access it, and isn’t not quite primed “or clean” for analysis. There’s only so much you can see, and you spend a lot of time cleansing before you can do any meaningful analysis.
  • Meaningful results: It’s not always hard to build predictive analytic models, but they have to translate to results that enable evidence-based decision-making.
  • Deliver ROI: There are a lot of products out there that produce 1% to 2% gains; that doesn’t necessarily justify the investment.

5. Internet of Things— While hospitals have been a bit slow in adopting IoT, three key trends will shape faster adoption:

  • Innovation in hardware components (smaller, faster CPUs at lower cost) will create cheaper, more advanced medical devices, such as a WiFi-enabled blood pressure monitor connected to the EHR for smoother patient care coordination.
  • General-purpose sensors are maturing and becoming more reliable for enterprise use.
  • Devices are becoming smart, but making them all work together is painful. It’s good to have bed sensors that talk to the nursing station, and they will become part of a top level “platform” within the hospital. More sensors also mean more data, and providers will create a “back-end platform” to collect, process and route it to the right place at the right time to can create “holistic” value propositions.

With increased regulatory and financial support, we’re on our way to making healthcare what it should be: smarter, cheaper and more effective. Providers want to do whatever it takes to cut costs and improve patient access and experience, so there are no real barriers.

Innovate and prosper!

Now Come Autonomous Trucks

In 2012, nearly 40,000 people were killed on U.S. roads, and 90% of those fatalities were caused by driver error.

Imagine an advanced autonomous system that could avoid those deadly motor vehicle accidents. Even a system that works only on the highway — where the technology has already been developed and where trucks spend the majority of their time — can make a significant difference.

A new report has analyzed the impact of driverless cars on the incidence of fatal traffic accidents and concluded that, by removing human emotions and errors from the equation, we could reduce deaths on the road by 90%. That’s almost 300,000 lives saved each decade in the U.S., and a saving of $190 billion each year in healthcare costs associated with accidents. If you expand this to global figures, driverless cars are set to save 10 million lives per decade.

There are now some trucks on the road that begin to fulfill that promise. Daimler Trucks North America’s “Inspiration” freightliner semi-truck this year became the first legally operated autonomous commercial vehicle operating on U.S. highways.

For now, the Inspiration is basically a limited take on the autonomous truck. The driverless system engages when the truck is on the highway and ramps up speed. It then maintains a safe distance from other vehicles and stays in its own lane.

If the autonomous truck encounters a circumstance it can’t handle (e.g., heavy snow or washed-out lane lines) it will alert the human driver that it’s time for him to take over. But what this technology can do is reduce traffic accidents, and that’s why I’m pretty excited about the whole thing.

A human driver has limited situational awareness. Autonomous trucks offer an extra set of eyes that continuously monitor a broad range of sensors (e.g., visible and infrared light and acoustic, including ultrasound), both passive and active, with a nearly 360-degree field of view.

Therefore, driverless vehicles can more quickly determine a safe reaction to potential hazards and initiate reactions faster than a human driver. For example, traffic collisions caused by human driver errors such as tailgatingrubbernecking and other forms of distracted or aggressive driving would be eliminated.

Safer and more efficient driving is the motivating force behind this emerging technology. It’s not about catching 40 winks on the highway or watching an episode of your favorite show. As cool as that might be to imagine, no one is replacing the human as the ultimate decision-maker.