Akira Nozawa

Development of a New Medium Useful for the Recovery of Dermatophytes from Clinical Specimens by Minimizing the Carryover Effect of Antifungal Agents

Two surface‐active compounds, egg lecithin and polysorbate 80, usually used as the deactivators of various preservatives were tested whether they also counteract either or all of the three major topical antifungal drugs, bifonazole (BFZ), lanoconazole (LCZ) and terbinafine (TBF). Both egg lecithin and polysorbate 80, when added to culture media up to final concentrations of 1.0 and 0.7%, respectively, antagonized the anti‐dermatophytic activity of the three drugs in a concentration‐dependent manner. A greater extent of antagonistic action was exerted when the two deactivators combined at their maximal levels tested were added; MICs of BFZ were increased more than 30‐fold and those of LCZ and TBF more than 200‐fold compared with the values obtained in the absence of the deactivators. Using the agar medium supplemented with the combined deactivators, culture studies were carried out with skin tissues specimens taken from guinea pigs whose feet were infected with dermatophytes and subsequently treated with 1% topical preparations of the three antifungal drugs. The experimental data from this animal study demonstrated that the combined deactivators‐supplemented medium yielded increased numbers of fungi compared with the basal medium. It looks, therefore, likely that the fungal recovery on the former medium more correctly reflects to actual fungal burden in the infected lesions than the latter. All these results suggest that the combined deactivators‐supplemented medium is more useful for mycological evaluation of therapeutic efficacy of imidazole and allylamine drugs against dermatophytoses in both preclinical and clinical studies.

A Novel Method Using Micropig Stratum Corneum In Vitro for the Evaluation of Anti-Trichophyton mentagrophytes Activity

Antifungal susceptibility testing under conditions close to clinical status is expected to provide more helpful information than that obtained by a conventional microdilution method. For this purpose, we developed a novel method to evaluate anti‐Trichophyton mentagrophytes activity of antifungal agents in vitro by using disks of micropig stratum corneum epidermis (SCE). Basal agar medium containing K2HPO4, MgSO4, CaCl2 and three kinds of antibiotics. Bifonazole (BFZ), lanoconazole (LCZ) or terbinafine (TBF) was added to the basal agar medium to give serially doubling dilutions ranging from 0.0006 to 10 μg/ml. Five‐hundred‐μl portions of the agar media thus prepared were solidified in wells of flat‐bottomed plates. SCE disks (6 mm in diameter) were placed on surfaces of the agar medium and 104 conidia of T. mentagrophytes were inoculated on each SCE disk There was very good correlation between the initial concentration of the antifungal agents added to the basal agar medium (μg/ml) and the concentration of the agents impregnated into the SCE disks (μg/g) (r2>0.99). The minimum inhibitory concentration (MIC) values of BFZ, LCZ and TBF were respectively 26‐, 10‐ and 78‐times higher than those measured by the standard microdilution method. From the correlation between the concentration of the agents in the basal medium and that in the SCE disks, the above MIC values corresponded to the concentrations in SCE disks (μg/g), 832.95 for BFZ, 1.42 for LCZ and 8.87 for TBF. This novel method of antidermatophytic susceptibility testing using SCE would be useful as an in vitro screening of proper antimycotics for topical treatment of dermatophytosis.