大肠杆菌
体外
微生物学
腹膜炎
生物
肠杆菌科
头孢菌素
抗生素
遗传学
基因
作者
Anne-Sophie Godron,Ariane Amoura,Claire Pistien,André Birgy,Sophie Magréault,Agnès B. Jousset,Vincent Jullien,A. Lefort,Bruno Fantin,Imane El Meouche,Victoire de Lastours
摘要
Abstract Introduction Cefiderocol is a siderophore cephalosporin active in vitro against carbapenemase-producing Enterobacterales, including New Delhi metallo-β-lactamases (NDM-1). A significant impact of the size of bacterial inoculum on its efficacy has been described in vitro, the clinical impact of which is unclear. Here, we analyse the inoculum effect of cefiderocol against E. coli-NDM-1 in vitro and in a murine peritonitis model. Materials and Methods Escherichia coli 62-pTOPO and its isogenic variant expressing NDM-1, 62-pTOPO-NDM, were constructed from a clinical strain. MICs and bactericidal kinetics were determined at standard (105 cfu/mL) and high inoculum (107 cfu/mL). The in vivo effect was assessed in a severe murine peritonitis model, comparing low (106 cfu/mL) and high (108 cfu/mL) inoculum. Survival rates, organ sterilization and bacterial counts in spleen and peritoneal fluid were compared. Results Cefiderocol MICs for 62-pTOPO and 62-pTOPO-NDM at standard and high inoculum were 0.008, 2, 2 and 1024 mg/L, respectively. Bactericidal activity was not achieved in vitro for 62-pTOPO-NDM at high inoculum with high cefiderocol concentrations (16 mg/L). In vivo, for 62-pTOPO-NDM, no difference was found in survival, organ sterilization or bacterial counts between low and high inoculum. For 62-pTOPO, no difference was observed in survival, despite less organ sterilization and higher bacterial counts in organs with the high inoculum. Conclusion A significant inoculum effect of cefiderocol was observed in vitro for 62-pTOPO and 62-pTOPO-NDM. However, the effectiveness of cefiderocol was not reduced in vivo with a high bacterial inoculum. In vitro inoculum effect of cefiderocol may not be clinically significant.
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