DETERMINATION OF THE SENSITIVITY OF DERMATOMYCOSIS CAUSES TO FUNGICIDES

Scientific and Technical Bulletin оf State Scientific Research Control Institute of Veterinary Medical Products and Fodder Additives аnd Institute of Animal Biology Pub Date : 2024-05-16 DOI:10.36359/scivp.2024-25-1.02

U. Z. Berbeka, V. I. Kushnir, I. S. Semen, I. Kushnir, D. F. Hufriy, H. V. Kolodiy, S. Murska

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Abstract

A microbiological study of the affected areas of the skin of dogs and cats was carried out for the detection of microscopic fungi. The following microscopic fungi were isolated from the pathological material: Candida spp., Aspergillus brasiliensis, Epidermophyton spp., Microsporum spp., Mucor spp., Trichophyton spp., Mallasseria spp., Sporotrich spp. Isolated microscopic fungi of the genus Malassezia spp. belong to the superficial mycoses (keratomycoses) and affect the surface layers of the skin and fur. Epidermatophytes: Trichophyton spp., Epidermophyton spp., Microsporum spp. affect the epidermis, skin, and coat. In addition, opportunistic fungi of the genus Aspergillus brasiliensis were found in the studied samples. It was established that the sensitivity of fungi isolated from the affected areas of the skin of dogs and cats to a 1% solution of ketonazole and clotrimazole is different. In particular, a 1% solution of ketonazole showed significantly higher activity compared to a 1% solution of clotrimazole. Thus, when determining the fungicidal effect of ketonazole, the growth retardation zone of the dermatophyte Trichophyton spp. was 34.3±0.6 mm, and the 1% clotrimazole solution was 21.3±0.3 mm. Ketonazol also showed higher fungicidal activity against the microscopic fungi Aspergillus brasiliensis and Candida spp., compared to clotrimazole. Thus, the activity of ketonazole was, respectively, 55.7 and 48.4% higher compared to clotrimazole. Clotrimazole showed the lowest fungicidal effect on Aspergillus brasiliensis, Mallasseria spp., Mucor spp., and Epidermophyton spp., the growth retardation zones of microscopic fungi were, respectively, 14.3±0.3, 14.3±0.6, 14.6± 0.6 and 16.6±0.3 mm.

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确定皮霉菌病病因对杀真菌剂的敏感性

对猫狗皮肤患处进行了微生物学研究，以检测微小真菌。从病理材料中分离出了以下微小真菌：念珠菌属、巴西曲霉属、表皮真菌属、小孢子菌属、粘孢子菌属、毛癣菌属、马拉色菌属、孢子丝菌属。马拉色菌属分离出的微小真菌属于表皮真菌病（角化病），影响皮肤和皮毛的表层。表皮真菌：毛癣菌属、表皮真菌属和小孢子菌属会影响表皮、皮肤和皮毛。此外，研究样本中还发现了巴西曲霉属的机会真菌。研究发现，从猫狗皮肤患处分离出的真菌对 1%的酮康唑和克霉唑溶液的敏感性不同。特别是，与 1%的克霉唑溶液相比，1%的酮康唑溶液显示出明显更高的活性。因此，在测定酮康唑的杀菌效果时，皮癣菌毛癣菌的生长阻滞区为 34.3±0.6 毫米，而 1%的克霉唑溶液为 21.3±0.3 毫米。与克霉唑相比，酮康唑对微小真菌巴西曲霉和白色念珠菌的杀真菌活性也更高。因此，酮康唑的活性分别比克霉唑高 55.7% 和 48.4%。克霉唑对巴西曲霉、Mallasseria 菌属、Mucor 菌属和表皮真菌的杀菌效果最低，对微小真菌的生长阻滞区分别为 14.3±0.3、14.3±0.6、14.6±0.6 和 16.6±0.3mm。

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Scientific and Technical Bulletin оf State Scientific Research Control Institute of Veterinary Medical Products and Fodder Additives аnd Institute of Animal Biology

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