Evaluation of a Commercial Ozonated Olive Oil Product (800 mEq O/Kg) Against Methicillin-Resistant(MRSP) Using an Ex Vivo Canine Skin Model.

Abstract

BACKGROUND: Methicillin-resistant(MRSP) represents an emerging challenge in veterinary dermatology. Commercially available ozonated oils promise antibacterial activity, but their efficacy under physiologically relevant conditions remains unexplored. OBJECTIVE: We aimed to evaluate the efficacy of commercial ozonated olive oil product (800 mEq O/kg) against MRSP using an established in vitro model and a newly presented ex vivo canine skin model. MATERIALS AND METHODS: In vitro susceptibility testing determined minimum inhibitory concentrations (MIC) and time-kill kinetics. Subsequently, canine skin samples were mounted in Franz diffusion cells, inoculated with MRSP (~10colony-forming units [CFU]), and treated for 8 h with ozonated or placebo olive oil. Bacterial viability was assessed by quantitative culture and histopathology. RESULTS: In vitro testing demonstrated antibacterial activity for ozonated oil (MIC < 20%/) compared to placebo oil (90%/), with ozonation-specific bactericidal effects. However, ex vivo testing showed no MRSP reduction for either oil versus untreated controls, with bacterial localization in superficial dermis unchanged. CONCLUSIONS: Despite in vitro activity, this ozonated olive oil failed to reduce MRSP in ex vivo skin, revealing that tissue barriers prevent antibacterial delivery. These findings demonstrate that in vitro screening cannot predict topical efficacy and emphasize the necessity of tissue-based validation before clinical use.