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Antidermatophytic Activity of Synthetic Peptides: Action mechanisms and clinical application as adjuvants to enhance the activity and decrease the toxicity of Griseofulvin
Mycoses ( IF 4.1 ) Pub Date : 2020-08-07 , DOI: 10.1111/myc.13138 Pedro F N Souza 1 , Patrícia G Lima 1 , Cleverson D T Freitas 1 , Daniele O B Sousa 1 , Nilton A S Neto 1 , Lucas P Dias 1 , Ilka M Vasconcelos 1 , Larissa B N Freitas 1 , Rafael G G Silva 2 , Jeanlex S Sousa 3 , Ayrles F B Silva 1 , Jose T A Oliveira 1
Mycoses ( IF 4.1 ) Pub Date : 2020-08-07 , DOI: 10.1111/myc.13138 Pedro F N Souza 1 , Patrícia G Lima 1 , Cleverson D T Freitas 1 , Daniele O B Sousa 1 , Nilton A S Neto 1 , Lucas P Dias 1 , Ilka M Vasconcelos 1 , Larissa B N Freitas 1 , Rafael G G Silva 2 , Jeanlex S Sousa 3 , Ayrles F B Silva 1 , Jose T A Oliveira 1
Affiliation
Dermatophytes belonging to the Trichophyton genus are important human pathogens, but they have developed resistance to griseofulvin, the most common antifungal drug used to treat dermatophytosis.
中文翻译:
合成肽的抗皮肤癣菌活性:作为佐剂增强灰黄霉素活性和降低毒性的作用机制和临床应用
属于毛癣菌属的皮肤癣菌是重要的人类病原体,但它们已对灰黄霉素(用于治疗皮肤癣菌病的最常见抗真菌药物)产生抗药性。
更新日期:2020-08-07
中文翻译:
合成肽的抗皮肤癣菌活性:作为佐剂增强灰黄霉素活性和降低毒性的作用机制和临床应用
属于毛癣菌属的皮肤癣菌是重要的人类病原体,但它们已对灰黄霉素(用于治疗皮肤癣菌病的最常见抗真菌药物)产生抗药性。
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