Taking Serialisation Beyond EU MDR Compliance
The medical device sector should take inspiration from the deployment of serialisation via 2D codes within pharmaceuticals. Taking a step beyond current legislative requirements, can reduce the risk of counterfeit products further, and bring additional benefits to both end-users and manufacturers, as Bart Vansteenkiste, Global Life Sciences Sector Manager, Domino Printing Sciences, explores.
The state of counterfeiting within the medical device sector
Counterfeiting is a serious problem in the global medical device industry. Vulnerabilities in global supply chains were brought to the fore at the very start of the COVID-19 pandemic, when counterfeit test kits, face masks, and PPE appeared seemingly overnight. Many companies that had not previously manufactured medical devices entered the marketplace with disposable masks and PPE to satisfy a dramatic increase in demand – and not all companies manufactured products to the standards required for use in medical settings. During the COVID-19 pandemic, authorities in 90 countries confiscated more than $14 million worth of counterfeit antiviral medications, face masks, and over-the-counter test kits through a global operation called Pangea XIII. In total, authorities around the globe confiscated 9 million units of illicit and counterfeit products.
While we have come a long way since the start of the pandemic, this is still a significant issue. Interpol’s most recent operation, which ran from 3 to 10 October 2023, led to the seizure of approximately 11,000 counterfeit COVID-19 test kits in Australia alone.
The global rise in ecommerce has played a significant role in promoting counterfeit sales of medical devices, with online marketplaces and ecommerce platforms offering a convenient place for consumers to shop and compare prices to find the best deals – or access products not available in their local markets – while providing a breeding ground for counterfeit products. Findings from the US Government Accountability Office have suggested that as many as two of every five consumer products available online through third-party retailers could be counterfeit.
The sale of counterfeit medical devices is, first and foremost, a safety concern but can also have significant economic repercussions. According to the World Health Organization, around 2 billion people worldwide lack access to necessary medical devices and pharmaceuticals, which has driven the demand for lower-cost products and increased the supply of counterfeit products. This is especially true for those in low- and middle-income countries, which spend an estimated $30.5 billion on substandard and counterfeit medicines, raising disease prevalence, wasting resources, and increasing out-of-pocket spending.
Medical device regulation today
Publication and full functionality of EUDAMED are expected to be in place by the end of 2024, and full use will be mandatory for all medical device manufacturers with staggered deadlines from 2026 to 2028.
- Production identifier – a variable text code comprising one or more variable characteristics, such as the date of manufacture, expiration date, lot number, or serial number.
- Device identifier – a unique text code for each specific model of a particular device. The information is static, meaning it is the same for all instances of the product model.
Not only will such a forward-thinking strategy help combat the rise and risk of counterfeit medical devices, it will also help manufacturers future-proof their lines should the requirement for serialisation be extended to include more product groups. In addition, those who implement serialisation can also stand to benefit substantially from tracking a product’s progression from creation to the end user, gaining supply chain data that can be used to enhance operational and commercial performance – as evidenced by the deployment of serialisation within the pharmaceutical sector.
The hidden benefits of serialised track and trace
The benefits of serialised track and trace in terms of boosting patient safety and the security of legitimate medicines, are well documented. What should also be considered is the wealth of data that serialisation has presented for pharmaceutical manufacturers and how this has been used to build efficiencies in the broader supply chain – from improved production line efficiency and access to supply chain data to enhanced operational performance.
Moreover, serialisation has also facilitated new commercial opportunities in other industries, as it has proven to be the foundation for digital marketing capabilities, including personalised consumer engagement and improved brand positioning.
Via serialisation, manufacturers can gain key insights into a product’s lifespan and distribution trends to facilitate strategic planning. Such data could, regulations permitting, present an opportunity for sales teams to engage with pharmacy chains and retailers to improve sales performance or engage in consumer-focused marketing.
Applying product serialisation can also help protect patient and consumer health and safety and make product information more accessible, dynamic, and consumer-friendly. By embedding serialised data within scannable 2D codes, medical device companies can help make product-specific information, such as user guides, easier for users to access while also ensuring that the guidance is up-to-date and accurate – and in formats (e.g. non-paper) that are more accessible to them.
In addition, unlike when EU FMD and US DSCSA were introduced, today the cost of serialisation through 2D codes has significantly reduced as knowledge has grown, making it much more efficient and cheaper to install across a range of markets. Today, serialised technology is being used in many low-cost sectors, including fresh fruit and vegetables and even postage stamps.
Conclusion
The adoption of protocols for medical devices based on well-known and trusted serialisation procedures is an essential step towards a secure system that ensures transparency and accountability in the medical device sector. In addition, advanced traceability metrics could allow further supply chain analytics using artificial intelligence and machine learning tools. With a thorough data set enabled via product serialisation, such tools could be applied to instantaneously examine vast quantities of data to identify trends and inconsistencies in the supply chain.
Globally, an increasing number of manufacturers beyond the pharmaceutical sector are realising the opportunities of 2D code-enabled serialisation. For those in the medical device sector who are not yet exploring the possibilities, the time to act is now.
ENDS
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