Putting blood on the blockchain
“Here’s how donations work. You roll up your sleeve. A blood donation service takes the blood. They ship it under strict temperature requirements to a production site. They separate it into other products. And they take it to a hospital or blood bank,” says Warren Tomlin, Digital and Innovation Leader for EY Canada. “But then they lose visibility.”
In other words, while hospitals and CBS already maintain precise records that allow them to trace a blood product back to the donor, a product’s complete path to the patient is not visible in real time to them or to others. Blockchain can make data from that path visible, while protecting the security of private information.
With this new system, when a donation occurs, the unit is scanned and all the related blood data is put on the blockchain (supported by the EY OpsChain platform). As the products from that donation move through the supply network, those products are scanned again and again, and their location and status are registered on a single, unified platform. The underpinning blockchain technology manages the integrity of this data at every stage.
Details about the blood are taken at seven key points:
- When the donor donates blood at a CBS collection facility
- When CBS performs tests on the blood, and records the results
- When CBS processes the blood into red blood cells, platelets and plasma
- When these constituent parts of the blood are stored in the CBS inventory
- When logistics operators transport the blood to a hospital
- When the hospital gives a patient a blood transfusion using the registered product
- When the hospital disposes of leftover blood after it is used
“Every time we get an Internet of Things (IoT) update of the temperature, it’s recorded on the blockchain. Every time we know where it is by GPS, that’s recorded on the blockchain,” says Tomlin. “If you think about blockchain and that chain of custody, we end up creating an improved audit trail for these products,” a single visible one that stretches from donor to recipient.
The data trail
Tomlin also stresses the detail and volume of data that is packed to each package of blood recorded on the blockchain. “When someone goes and gives blood, we take that unit and we scan the barcode and ‘tokenize’ the blood,” he explains. “Then we take that barcode and we put it on the blockchain. That gives us our first snowball of data — and as Canadians, we love that analogy. As that snowball rolls around in the snow it gets bigger. It picks up more snow until it becomes the base of the snowman.”
“In the same way, each unit of blood ends up accumulating lots and lots of data,” he continues. “First of all, we get your name, your age, and your ethnicity, and your blood type. That’s all saved in the blockchain. Then, as it moves through the supply chain, it rolls up more data. In the truck it picks ups data from GPS sensors. In a cooler fitted with an IoT sensor, it picks up data about temperature. All that data gets added to the snowball. And that makes tracking much easier than it is today.”