The scale of increase in medication usage across the world is frightening.
There are numerous disturbing facts that accompany this spread:
- The NHS drug bill rose by 8 per cent to £16.8 billion in 2016, up from £13 billion in 2011. 4 treatments now cost more than £1 billion per annum. Source Dec 2016 Times
- Half of women and 43% of men in England are now regularly taking prescription drugs. Source NHS 2014
- It is estimated that £300 million of NHS prescribed medicines are wasted each year
- Diabetes accounts for over 10% of the annual drug bill
- One in five do not take all their medicine according to a survey of 2,048 people carried out for an Omnicell report by ComRes in 2016
- The U.S. is 4.6% of the world’s population, yet consumes 80% of opioid painkillers
- Global spending on medicines is forecast to reach $1.4 trillion by 2020, an increase of between 29 percent and 32 percent from 2015, according to IMS Health
The increase itself is fairly well understood by people. The less well known problem is that the misuse of antibiotics can enable bacteria to develop resistance to them. A lot of antibiotic-resistant strains are popping out. If antibiotics stop working, we have no other defence against bacterial infections. When you take antibiotics, you are putting a tremendous selective pressure on the bacterial population. Randomly, a few bacteria of the billions you have, will be slightly more resistant to the antibiotic than others. This means they are more likely to survive your antibiotic doses, and in turn they could evolve in more and more resistant strains, until the antibiotic has no effect on them anymore.
The trick is poisoning these bacteria with the antibiotic faster and stronger than their efficiency of evolving resistance and replicating. That is, if a bacteria narrowly escapes death by antibiotic, and you give it a break so it has time to replicate, you end up having a growing infection with a quite resistant strain of bacteria. If you instead take your pill at the right time, you give it another chemical punch that will hopefully kill it before it managed to replicate significantly.
So given these facts, why are we not finding other ways to reduce the problems. One of these could be by throwing more energy at tagging prescription medicines to enable:
- better understanding of whether patients are following the courses and therefore protecting our long-term antibiotic resistance?
- healthcare providers to ensure that patients don’t waste or sell their drugs?
- more patients to take the drugs that reduce further healthcare costs?
As long ago as 2004 the FDA backed RFID tagging of prescription medicine to track drug products through the supply chain. Now there has been considerable progress made around drug packaging protection with RFID tags aimed at reducing counterfeiting and wastage. In 2015 The University of Vermont Medical Center in Burlington, Vt., announced that five million medications had been tracked using radio frequency identification technology. This allows a hospital to track reliably from ordering through dispensing through administration at the bedside, and so enhance patient safety.
This has been followed more recently with approval in the UK and US for prescription pills that contain RFID chips – in other words ingestible RFID microchip medicine. This came out of Proteus Digital Health’s Ingestion Event Marker (IEM). This can be embedded in a pill, and ingested to monitor the patient and their bodily health. The device will collect measurements such as heart rate, body position and activity. The IEM sends a signal to your smartphone; which then transmits the data to the doctor.
It is still very early days for this technology, but given the scale of the problems outlined above, we need to adopt this quickly. First and foremost this should be about tracking drug usage. Once this is done then we can begin to explore the sunny uplands of prevention and bodily health checks.