PURPOSE: Counterfeit drug products have become a major problem worldwide and a number of techniques to detect counterfeit products or reduce the potential for counterfeiting have been investigated. This study examined the use of stable isotope-labeled excipients in solid dosage forms as a method to identify drug products and to detect counterfeits. METHODS: (2)H- and (13)C-glucose were used as model excipients and incorporated in wet granulated formulations at a variety of different isotopic ratios. The ratios of (2)H/(1)H and (13)C/(12)C in each product were then determined by isotope ratio mass spectrometry. RESULTS: Results demonstrated the ability to detect the isotope-labeled glucose in both granules and tablets. CONCLUSIONS: It was possible to use the isotope ratios to differentiate between specific batches of granules, demonstrating the potential of this technique for in-product, batch-specific identification.
PURPOSE: Counterfeit drug products have become a major problem worldwide and a number of techniques to detect counterfeit products or reduce the potential for counterfeiting have been investigated. This study examined the use of stable isotope-labeled excipients in solid dosage forms as a method to identify drug products and to detect counterfeits. METHODS: (2)H- and (13)C-glucose were used as model excipients and incorporated in wet granulated formulations at a variety of different isotopic ratios. The ratios of (2)H/(1)H and (13)C/(12)C in each product were then determined by isotope ratio mass spectrometry. RESULTS: Results demonstrated the ability to detect the isotope-labeled glucose in both granules and tablets. CONCLUSIONS: It was possible to use the isotope ratios to differentiate between specific batches of granules, demonstrating the potential of this technique for in-product, batch-specific identification.
Authors: Stephanie Kovacs; Stephen E Hawes; Stephen N Maley; Emily Mosites; Ling Wong; Andy Stergachis Journal: PLoS One Date: 2014-03-26 Impact factor: 3.240