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Effectiveness of medicines authentication technology to detect counterfeit, recalled and expired medicines: a two-stage quantitative secondary care study.

Effectiveness of medicines authentication technology to detect counterfeit, recalled and expired medicines: a two-stage quantitative secondary care study. Thumbnail


Abstract

OBJECTIVES: To identify the authentication and detection rate of serialised medicines using medicines authentication technology. DESIGN AND INTERVENTION: 4192 serialised medicines were entered into a hospital dispensary over two separate 8-week stages in 2015. Medicines were authenticated using secure external database cross-checking, triggered by the scanning of a two-dimensional data matrix with a unit specific 12-digit serial code. 4% of medicines included were preprogrammed with a message to identify the product as either expired, pack recalled, product recalled or counterfeit. SETTING: A site within a large UK National Health Service teaching hospital trust. PARTICIPANTS: Accredited checking staff, pharmacists and dispensers in a pharmacy department. PRIMARY OUTCOME MEASURES: Authentication and detection rate of counterfeit expired and recalled medicines. RESULTS: The operational detection rate of counterfeit, recalled and expired medicines scanned as a combined group was 81.4% (stage 1 (S1)) and 87% (stage 2 (S2)). The technology's technical detection rate (TDR) was 100%; however, not all medicines were scanned and of those that were scanned not all that generated a warning message were quarantined. Owing to an operational authentication rate (OAR) of 66.3% (over both stages), only 31.8% of counterfeit medicines, 58% of recalled drugs and 64% of expired medicines were detected as a proportion of those entered into the study. Response times (RTs) of 152 ms (S1) and 165 ms (S2) were recorded, meeting the falsified medicines directive-mandated 300 ms limit. CONCLUSIONS: TDRs and RTs were not a limiting factor in this study. The suboptimal OAR poses significant quality and safety issues with this detection approach. Authentication at the checking stage, however, demonstrated higher OARs. There is a need for further qualitative research to establish the reasons for less than absolute authentication and detection rates in the hospital environment to improve this technology in preparation for the incumbent European Union regulative deadline.

Acceptance Date Nov 8, 2016
Publication Date Dec 9, 2016
Publicly Available Date Mar 28, 2024
Journal BMJ Open
Publisher BMJ Publishing Group
Pages e013837 - ?
DOI https://doi.org/10.1136/bmjopen-2016-013837
Publisher URL http://bmjopen.bmj.com/content/6/12/e013837.info

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