机械通气治疗期间铜绿假单胞菌性肺炎的猪模型中吸入噬菌体治疗。

Inhaled bacteriophage therapy in a porcine model of pneumonia caused by Pseudomonas aeruginosa during mechanical ventilation.

机构信息

Centre d'Etude des Pathologies Respiratoires, INSERM, Tours, France.

CEPR-U1100, Université de Tours, Tours, France.

出版信息

Br J Pharmacol. 2021 Sep;178(18):3829-3842. doi: 10.1111/bph.15526. Epub 2021 Jul 9.

DOI:10.1111/bph.15526

PMID:33974271

Abstract

UNLABELLED

BACKGROUND AND PURPOSE 255: Pseudomonas aeruginosa is a main cause of ventilator-associated pneumonia (VAP) with drug-resistant bacteria. Bacteriophage therapy has experienced resurgence to compensate for the limited development of novel antibiotics. However, phage therapy is limited to a compassionate use so far, resulting from lack of adequate studies in relevant pharmacological models. We used a pig model of pneumonia caused by P. aeruginosa that recapitulates essential features of human disease to study the antimicrobial efficacy of nebulized-phage therapy.

EXPERIMENTAL APPROACH

(i) Lysis kinetic assays were performed to evaluate in vitro phage antibacterial efficacy against P. aeruginosa and select relevant combinations of lytic phages. (ii) The efficacy of the phage combinations was investigated in vivo (murine model of P. aeruginosa lung infection). (iii) We determined the optimal conditions to ensure efficient phage delivery by aerosol during mechanical ventilation. (iv) Lung antimicrobial efficacy of inhaled-phage therapy was evaluated in pigs, which were anaesthetized, mechanically ventilated and infected with P. aeruginosa.

KEY RESULTS

By selecting an active phage cocktail and optimizing aerosol delivery conditions, we were able to deliver high phage concentrations in the lungs, which resulted in a rapid and marked reduction in P. aeruginosa density (1.5-log reduction, p < .001). No infective phage was detected in the sera and urines throughout the experiment.

CONCLUSION AND IMPLICATIONS

Our findings demonstrated (i) the feasibility of delivering large amounts of active phages by nebulization during mechanical ventilation and (ii) rapid control of in situ infection by inhaled bacteriophage in an experimental model of P. aeruginosa pneumonia with high translational value.

摘要

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背景与目的 255：铜绿假单胞菌是导致呼吸机相关性肺炎（VAP）的主要原因，且具有耐药菌。噬菌体疗法作为新型抗生素的补充，已重新兴起。然而，噬菌体疗法目前仅限于同情用药，这是因为缺乏相关药理学模型的充分研究。我们使用了一种猪肺炎模型来研究雾化噬菌体治疗的抗菌效果，该模型再现了人类疾病的重要特征。

实验方法

（i）通过裂解动力学测定来评估噬菌体对铜绿假单胞菌的体外抗菌功效，并选择相关的裂解噬菌体组合。（ii）在体内（铜绿假单胞菌肺部感染的小鼠模型）研究噬菌体组合的功效。（iii）我们确定了确保在机械通气期间通过气溶胶有效输送噬菌体的最佳条件。（iv）在麻醉、机械通气和铜绿假单胞菌感染的猪中评估吸入噬菌体治疗的肺部抗菌功效。

主要结果

通过选择有效的噬菌体鸡尾酒并优化气溶胶输送条件，我们能够将高浓度噬菌体输送到肺部，这导致铜绿假单胞菌密度迅速显著降低（1.5 对数减少，p < 0.001）。在整个实验过程中，血清和尿液中均未检测到感染性噬菌体。

结论和意义

我们的研究结果表明：（i）在机械通气期间通过雾化输送大量有效噬菌体是可行的；（ii）在铜绿假单胞菌肺炎的实验模型中，吸入噬菌体能够快速控制原位感染，具有很高的转化价值。

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机械通气治疗期间铜绿假单胞菌性肺炎的猪模型中吸入噬菌体治疗。

Inhaled bacteriophage therapy in a porcine model of pneumonia caused by Pseudomonas aeruginosa during mechanical ventilation.

机构信息

出版信息

UNLABELLED

EXPERIMENTAL APPROACH

KEY RESULTS

CONCLUSION AND IMPLICATIONS

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实验方法

主要结果

结论和意义

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