Intranasal Treatment with Bacteriophage Rescues Mice from <i>Acinetobacter Baumannii</i> -Mediated Pneumonia

Yong Wang; Zhiqiang Mi; Wenkai Niu; Xiaoping An; Xin Yuan; Huiying Liu; Puyuan Li; Yannan Liu; Yuzhong Feng; Yong Huang; Xianglilan Zhang; Zhiyi Zhang; Hang Fan; Fan Peng; Yigang Tong; Changqing Bai

doi:10.2217/fmb.16.11

Intranasal Treatment with Bacteriophage Rescues Mice from <i>Acinetobacter Baumannii</i> -Mediated Pneumonia

Yong Wang(PLA 306 Hospital), Zhiqiang Mi(Institute of Microbiology), Wenkai Niu(PLA 306 Hospital), Xiaoping An(Institute of Microbiology), Xin Yuan(PLA 306 Hospital), Huiying Liu(PLA 306 Hospital), Puyuan Li(PLA 306 Hospital), Yannan Liu(PLA 306 Hospital), Yuzhong Feng(PLA 306 Hospital), Yong Huang(Institute of Microbiology), Xianglilan Zhang(Institute of Microbiology), Zhiyi Zhang(Institute of Microbiology), Hang Fan(Institute of Microbiology), Fan Peng(The First Hospital of Changsha), Yigang Tong(PLA 306 Hospital), Changqing Bai(Institute of Microbiology)

Future Microbiology

February 29, 2016

10.2217/fmb.16.11

Cited by 57

Abstract

AIM: With the emergence of drug-resistant bacteria, finding alternative agents to treat antibiotic-resistant bacterial infections is imperative. MATERIALS & METHODS: A mouse pneumonia model was developed by combining cyclophosphamide pretreatment and Acinetobacter baumannii challenge, and a lytic bacteriophage was evaluated for its therapeutic efficacy in this model by examining the survival rate, bacterial load in the lung and lung pathology. RESULTS: Intranasal instillation with bacteriophage rescued 100% of mice following lethal challenge with A. baumannii. Phage treatment reduced bacterial load in the lung. Microcomputed tomography indicated a reduction in lung inflammation in mice given phage. CONCLUSION: This research demonstrates that intranasal application of bacteriophage is viable, and could provide complete protection from pneumonia caused by A. baumannii.

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