噬菌体治疗在抗抗生素耐药性中的应用综述

A. Aishat, S. Manga, I. Obaroh, R. J. Bioku, B. Abdulkadir
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引用次数: 0

摘要

使用细菌病毒(噬菌体)治疗细菌感染的噬菌体疗法已经存在了将近一个世纪。抗生素有效性的普遍下降引起了人们重新审视这一做法的兴趣。传统上,噬菌体治疗依赖于使用自然产生的噬菌体在感染部位感染和溶解细菌。生物技术的进步进一步扩展了潜在的噬菌体治疗方法,包括使用生物工程噬菌体和纯化的噬菌体裂解蛋白的新策略。目前对噬菌体及其裂解蛋白的研究,特别是针对耐多药细菌感染的研究表明,噬菌体治疗有可能被用作抗生素治疗的替代或补充。抗菌疗法,无论是基于噬菌体还是基于抗生素,都有相对的优点和缺点。在设计预防和治疗细菌感染的新治疗方法时,必须考虑许多因素。尽管对噬菌体、细菌和人类宿主之间的相互作用仍知之甚少,但重视噬菌体治疗的时机似乎正在迅速接近。关键词:抗生素耐药性;抗菌药物;噬菌体;生物膜;多药耐药性;噬菌体;噬菌体安全;治疗。
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An Overview on the Application of Bacteriophage Therapy in Combating Antibiotics Resistance: A Review
The practice of phage therapy, which uses bacterial viruses (phages) to treat bacterial infections, has been around for almost a century. The universal decline in the effectiveness of antibiotics has generated renewed interest in revisiting this practice. Conventionally, phage therapy relies on the use of naturally-occurring phages to infect and lyse bacteria at the site of infection. Biotechnological advances have further expanded the repertoire of potential phage therapeutics to include novel strategies using bioengineered phages and purified phage lytic proteins. Current research on the use of phages and their lytic proteins, specifically against multidrug resistant bacterial infections, suggests phage therapy has the potential to be used as either an alternative or a supplement to antibiotic treatments. Antibacterial therapies, whether phage- or antibioticbased, have relative advantages and disadvantages accordingly. Many considerations must be taken into account when designing novel therapeutic approaches for preventing and treating bacterial infections. Although much is still unknown about the interactions between phage, bacteria, and human host, the time to take phage therapy seriously seems to be rapidly approaching Keywords: Antibiotic resistance; Antimicrobial; Bacteriophage; Biofilms; Multidrug resistance; Phage; Phage safety; Therapy.
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