A leading UK expert in analysing pharmaceutical compounds has demonstrated that U.S.-based technology can identify fake medicines in minutes.
Traditional technology, based on large, laboratory-based methods, takes hours and sometimes days of intensive work. Presenting his research at the British Pharmaceutical Conference (BPC) in Manchester, Professor Tony Moffat said: "This new technology allows analysis from a scraping rather than from a whole crushed tablet (which saves time and effort) and can identify counterfeits in real time - two important benefits over existing technology - that offers wholesalers, regulators and governments the opportunity to up-scale their efforts to detect fake drugs that are increasingly entering the supply chain." Professor Moffat is Head of the Centre for Pharmaceutical Analysis at the University of London's School of Pharmacy.
Identification of a fake drug by visual examination is almost impossible. Increasingly, international and national regulators, law enforcement personnel, pharmaceutical companies and wholesalers are looking for ways of reducing counterfeits entering the supply chain. Recent examples of counterfeits entering the UK supply chain include Plavix (to prevent blood clotting), Casodex (for prostate cancer) and Zyprexa (for psychosis).
The technology, called Direct Analysis in Real Time (DART), produces an almost instantaneous reading of the chemical composition of the outer coating of a tablet - or of its core composition - based on a scraping of the tablet. Traditional analytical techniques require tablets to be crushed to a powder and processed before they can be assessed.
To test the potential of DART technology, Professor Moffat and his team analysed authentic Cialis (a treatment for erectile dysfunction) tablets which contain an active ingredient called tadalafil, bought from pharmacies in London, and compared them with known counterfeit Cialis tablets provided by the Korean Food and Drug Administration. The film coating of the authentic drugs contained a signature chemical that was detected by DART in all instances.