New insights in oxybutynin chemical stability: Identification in transdermal patches of a new impurity arising from oxybutynin N-oxide rearrangement

Oxybutynin hydrochloride (Oxy), the first choice drug used for themanagement of urinary incontinence, is available in different types of formulations. However, due to its better lipophylicity and permeability, Oxy free base was used in the new topical formulations such as transdermal patch and gel. The presence of an unprecedented impurity (Oxy-EK) in transdermal patches led to reinvestigate the chemical stability of Oxy free base in oxidative conditions assigning, to Oxy-EK, the structure of (3E)-4-(N,N-diethylamino)-2-oxo-3-buten-1-yl 1-cyclohexyl-1-phenylglycolate. Oxy-EK arises from the prototropic rearrangement of oxybutynin N-oxides leading to the formation of an enamino ketone function which shows a long-wavelength UV-absorption. The total synthesis of Oxy-EK was performed, allowing to propose it as the indicator of stability for oxidative degradation of Oxy free base in transdermal formulations. The presence in the structure of Oxy-EK of an α,β-unsaturated carbonyl function, a potentialMichael acceptor, suggested the need of evaluating its possiblemutagenic power.Accordingly, the Ames test was performed: at nontoxic concentrations, Oxy-EK did not increase the number of revertant colonies in all strains tested both in the absence and presence of the exogenous metabolic activator S9.