Aim: Stability must be evaluated before quantitation of drugs or metabolites concentrations in biological matrices. We reported a case study where instability of a drug metabolite was mediated by hemolysis. Materials & methods: The instability of both enantiomers of N-desethyloxybutynin was observed in hemolyzed plasma stored at -20°C. The investigations indicated that heme-mediated oxidation converted the metabolite to its N-oxide. Storing samples under lower temperature (-50°C or below) or treatment with the antioxidant ascorbic acid stabilized the metabolite. Conclusion: The evaluation of the stability of some analytes in a hemolyzed sample is crucial as it may negatively impact incurred sample reanalysis or pharmacokinetic profiles on highly hemolyzed samples.
Keywords:
- bioanalytical
- chiral separation
- heme-mediated oxidation
- hemolysis
- LC–MS-MS
- method development
- N-desethyloxybutynin
- oxybutynin
- stability
- validation