Nebulization as the mode to administer therapeutic bacteriophages to resolve Acinetobacter pneumonia in rabbits

Vinodkumar C.S, Ananya V Swamy, Shreshta Shamanur, Arpitha Venkatareddy, V. L. Jayasimha, S. Reddy, Susan Jyothica Dsouza, S. H
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Abstract

Multidrug-resistant strains of , a significant hospital pathogen, have developed resistance to virtually all available antibiotics. Carbapenems antibiotics are among the most commonly used antibiotics against Acinetobacter infections, but they can be rendered ineffective by the metallo-beta-lactamase enzyme. In this study, bacteriophage isolated against producing was evaluated for its therapeutic potential in the rabbit pneumonia model.was isolated from the sputum and was speciated as per the standard microbiological techniques. Bacteriophage specific for producing from the sewage water. Pneumonia was introduced in the rabbits as per Esposito Pennington method and efficacy of the bacteriophage in resolving pneumonia was evaluated. For in-vivo experiments, five groups of rabbits were used including infection-free, phage control, bacteria-infected control, and the other two groups infected with and treated either with an antibiotic, colistin (2.5 mg/kg, twice a day intraperitoneally) or Acinetobacter phage (3×10 PFU/mL, given once through nebulizer). The experimental animals were monitored for 72 hours for mortality, and the surviving rabbits were killed for bacteriological and histopathological analysis In the infected group, pneumonia was developed within 48 hours, and 6/10 animals were dead after 72 hours. All the animals in the antibiotic group survived but showed signs of pneumonia, and there was up to 4 log CFU/g±0.24 reduction in the bacterial count. In phage treated group, all the animals survived at the end of 72 hours and all the animals were healthy with no signs of pneumonia. The experiment showed new insights into the application of bacteriophage through nebulization, a non-invasive method of phage delivery to rescue rabbits from pneumonia caused by -producing .
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以雾化方式给药治疗性噬菌体治疗兔不动杆菌肺炎
多药耐药菌株是一种重要的医院病原体,已对几乎所有可用的抗生素产生耐药性。碳青霉烯类抗生素是抗不动杆菌感染最常用的抗生素之一,但它们可能被金属- β -内酰胺酶失效。在本研究中,对分离的抗产噬菌体在兔肺炎模型中的治疗潜力进行了评价。从痰中分离得到,并按标准微生物学技术进行了物种划分。从污水中产生的特异性噬菌体。采用埃斯波西托·彭宁顿法引入家兔肺炎,评价噬菌体治疗肺炎的疗效。体内实验采用无感染、噬菌体对照组、细菌感染对照组五组家兔,另外两组家兔分别感染抗生素粘菌素(2.5 mg/kg,每天2次腹腔注射)或不动杆菌噬菌体(3×10 PFU/mL, 1次通过雾化器给药)。对实验动物进行72小时的死亡监测,将存活的家兔处死进行细菌学和组织病理学分析。感染组在48小时内出现肺炎,72小时后6/10只动物死亡。抗生素组的所有动物都存活了下来,但出现了肺炎的迹象,细菌数量减少了4 log CFU/g±0.24。在噬菌体治疗组,所有动物在72小时结束时均存活,所有动物健康,无肺炎症状。本实验为噬菌体雾化给药,一种非侵入性的噬菌体给药方法,在治疗产-所致肺炎家兔中的应用提供了新的见解。
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