Really informative post, Chuck. I'm curious about the issue raised surrounding challenges. Your sources say it's not the technology, but other factors like reimbursement issues. What exactly does that mean? Are you saying we're technologically equipped to do this and it likely lowers the cost of health care long term, but our insurance and government policies aren't such that it can support it?
Thanks for commenting Beth. Yes - that's what I'm saying. Sure there are always technology limitations, but in general, it's the reimbursement climate that has slowed adoption of certain medical / healthcare applications.
Steven, how is this market viewed at this point? Certainly medical equipment is a large market, but it has been a large specialized market. I would think that home-based medical equipment potentially provides a significantly larger market, one that would be much more like a consumer market.
You are correct sir. The home-based medical equipment market is potentially a larger market and more similar to a consumer market. Alternatively, on the clinical side, the equipment is certainly specialized and most could not match the volumes potentially offered on the home portable medical side.
That said, in order for distant doctors or caregivers to trust data (and make treatment decisions) coming in from afar - potentially from the other side of the world from these home portable medical devices, they too need to be somewhat specialized and certainly accurate and reliable. So a pulse oximeter for example operated from the home must be not only clinically accurate, but repeatable, portable and inexpensive enough for the masses. It's accually a taller challenge.
We actually have a medical doctor on staff, operating (literally) as a surgeon. We're applying our learning in the clinic environment and supporting that space for certain, but leveraging that capability in the home portable medical space as well. Best of both worlds -
Thanks Steven. That said, is the market building much yet? I would imagine this would require some changes in behavior for medical practitioners to adopt it. Or, perhaps there is pent up demand and it will be adopted quickly.
I love these discussions! Looking at the US, Remote Patient Monitoring will help solve the runaway healthcare spending/cost issue, but the reimbursement climate must change for the better so this is fully appreciated. There's pent up demand as you say, but the follow-the-money model isn't quite in place for the hockey stick growth that I eventually expect. The crystal ball isn't that clear just yet. But that's the story with the US.
Looking at the bigger picture from a global perspective, I see Remote Patient Monitoring (RPM) taking off in emerging economies first, where the pent up demand is the result of needed access to healthcare - as opposed to needing to solve a cost issue. The emerging economies of China and India look quite good for RPM for example. In addition, EMEA is moving forward much faster with RPM than the US, implementing it in small pockets already.
The advance that emerging economies have in adoption is that they do not need to overcome well established ecosystems and processes. Often, new technologies are much easier to adopt without rigid systems in place.
One example of this adoption phenomenon in an adjacent market lies within the automotive industry.
Let's just look at compressed natural gas (CNG). Currently the countries with the highest number of CNG vehicles are:
·Pakistan: 2.74 million CNG vehicles
·Iran: 1.95 million CNG vehicles
·Argentina: 1.90 million CNG vehicles
·Brazil: 1.66 million CNG vehicles
·India: 1.08 million CNG vehicles
·USA: 112,000 CNG vehicles - that's 112K.
It's simple. Build as you grow, and the emerging markets have the advantage.
So, shifting gears back to healthcare, at the end of the day, the cool factor lies within the fact that the same RPM technology can help solve both the healthcare spending/cost issue as well as the access issue globally. Timing: Advantage emerging economies.
Steve: You and I have talked a little bit about this in the past -- If home healthcare is going to take off, how important is it for physicians to be able to use some kind of different pricing structure? I'm specifically thinking of charging patients for over-the-phone consulting.
This is encouraging. I started hearing about home healthcare about 20 tears ago--it was supposed to be the wave of the future and a healthcare career of the future. It either didn't materialize, or died, apparently temporarily, because of the high costs of personal care by humans. It sounds like there's been a resurgence because of the lower costs of care or assistance that can be provided by newer electronics.
Yes, I saw the remote monitoring first hand recently when a friend was "admitted" to the hospital from home. The hospital tracked his vitals, etc. remotely. A nurse or doctor visited a few times until he was ready to be "discharged."
This experience came with a handful of postivies. The patient was able to stay in the comfort of his own home (and away from exposure to staph and MRSA). The hospital didin't have to give up a very expensive room.
This technology could change how we experience health care.
Are they robots or androids? We're not exactly sure. Each talking, gesturing Geminoid looks exactly like a real individual, starting with their creator, professor Hiroshi Ishiguro of Osaka University in Japan.
For industrial control applications, or even a simple assembly line, that machine can go almost 24/7 without a break. But what happens when the task is a little more complex? That’s where the “smart” machine would come in. The smart machine is one that has some simple (or complex in some cases) processing capability to be able to adapt to changing conditions. Such machines are suited for a host of applications, including automotive, aerospace, defense, medical, computers and electronics, telecommunications, consumer goods, and so on. This discussion will examine what’s possible with smart machines, and what tradeoffs need to be made to implement such a solution.