1. Evaluation of impurities and dissolution profiles of illegal antimicrobial drugs encountered in Belgium
- Author
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Eric Deconinck, Kevin van Loock, Erwin Adams, and Yaxin Tie
- Subjects
Quality Control ,Pharmaceutical Science ,01 natural sciences ,Analytical Chemistry ,03 medical and health sciences ,0302 clinical medicine ,Antibiotic resistance ,Anti-Infective Agents ,Belgium ,Environmental health ,Environmental Chemistry ,Medicine ,Antimicrobial drugs ,030216 legal & forensic medicine ,Dissolution ,Spectroscopy ,Active ingredient ,Illicit Drugs ,business.industry ,010401 analytical chemistry ,Comparative dissolution study ,Impurity tests ,Antimicrobial ,0104 chemical sciences ,Drug quality ,Drug Liberation ,Counterfeit Drugs ,Substandard and falsified ,Drug Contamination ,business ,Tablets - Abstract
Substandard and falsified (SF) antimicrobials are gaining popularity in both developing and developed countries, posing a growing threat to public health. In general, the evaluation of SF antimicrobial drugs mainly focuses on the identification and quantification of the pharmaceutical active ingredients, ignoring other parameters of drug quality control. This study performed an in-depth characterization and hazard identification of suspected SF antimicrobial medicinal products encountered in Belgium. In this comprehensive evaluation, impurity tests and dissolution studies were carried out. The dissolution profiles of illegal SF antimicrobials were mathematically compared to their genuine counterparts using the f1 and f2 -factor. The results indicated that 17 out of 57 illegal samples contained higher than permitted amounts of impurities and clearly demonstrated low equivalences of dissolution profiles between SF antimicrobials and genuine products. The variations between tablets at the different time points of the dissolution curves were also higher for the SF medicines. Moreover, 11 out of 19 illegal samples failed to meet the dissolution criteria prescribed by the United States Pharmacopeia. As impurities may induce adverse reactions and improper dissolution patterns may be the cause of insufficient drug efficacy, aggravation of illness and even promotion of antimicrobial resistance can be expected. ispartof: DRUG TESTING AND ANALYSIS vol:12 issue:1 pages:53-66 ispartof: location:England status: published
- Published
- 2020