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评估头孢洛林对艰难梭菌的抗菌活性及其在体外人类肠道模型中诱导艰难梭菌感染的倾向。

Evaluation of antimicrobial activity of ceftaroline against Clostridium difficile and propensity to induce C. difficile infection in an in vitro human gut model.

机构信息

Faculty of Health and Human Science, School of Life Sciences, University of Hertfordshire, Hatfield AL10 9AB, UK.

出版信息

J Antimicrob Chemother. 2013 Aug;68(8):1842-9. doi: 10.1093/jac/dkt107. Epub 2013 Apr 3.

DOI:10.1093/jac/dkt107
PMID:23557928
Abstract

OBJECTIVES

To examine the effects of exposure to ceftaroline or ceftriaxone on the epidemic Clostridium difficile strain PCR ribotype 027 and the indigenous gut microflora in an in vitro human gut model. Additionally, the MICs of ceftriaxone and ceftaroline for 60 C. difficile isolates were determined.

METHODS

Two triple-stage chemostat gut models were primed with human faeces and exposed to ceftaroline (10 mg/L, twice daily, 7 days) or ceftriaxone (150 mg/L, once daily, 7 days). Populations of indigenous gut microorganisms, C. difficile total viable counts, spore counts, cytotoxin titres and antimicrobial concentrations were monitored throughout. MICs were determined by a standard agar incorporation method.

RESULTS

In the gut model, both ceftaroline and ceftriaxone induced C. difficile spore germination, proliferation and toxin production, although germination occurred 5 days later in the ceftaroline-exposed model. Toxin detection was sustained until the end of the experimental period in both models. No active antimicrobial was detected in vessel 3 of either model, although inhibitory effects on microflora populations were observed. Ceftaroline was ∼8-fold more active against C. difficile than ceftriaxone (geometric mean MICs, 3.38 versus 28.18 mg/L; MIC90s, 4 versus 64 mg/L; and MIC ranges, 0.125-16 versus 8-128 mg/L).

CONCLUSIONS

Ceftaroline, like ceftriaxone, can induce simulated C. difficile infection in a human gut model. However, low in vivo gut concentrations of ceftaroline and increased activity against C. difficile in comparison with ceftriaxone mean that the true propensity of this novel cephalosporin to induce C. difficile infection remains unclear.

摘要

目的

在体外人类肠道模型中,研究暴露于头孢洛林或头孢曲松对流行的艰难梭菌 PCR 核糖体 027 型菌株和肠道固有菌群的影响。此外,还测定了 60 株艰难梭菌分离株对头孢曲松和头孢洛林的 MIC。

方法

使用人体粪便启动两个三阶段恒化器肠道模型,并暴露于头孢洛林(10 mg/L,每日 2 次,7 天)或头孢曲松(150 mg/L,每日 1 次,7 天)。监测整个过程中肠道固有微生物群、艰难梭菌总活菌计数、孢子计数、细胞毒素效价和抗菌药物浓度。采用标准琼脂掺入法测定 MIC。

结果

在肠道模型中,头孢洛林和头孢曲松均诱导艰难梭菌孢子萌发、增殖和毒素产生,尽管在头孢洛林暴露模型中,孢子萌发发生在 5 天后。在两个模型中,毒素检测一直持续到实验结束。虽然观察到对微生物种群的抑制作用,但在两个模型的容器 3 中均未检测到活性抗菌药物。头孢洛林对艰难梭菌的活性比头孢曲松高约 8 倍(几何平均 MIC 值,3.38 与 28.18 mg/L;MIC90s,4 与 64 mg/L;MIC 范围,0.125-16 与 8-128 mg/L)。

结论

头孢洛林与头孢曲松一样,可在人类肠道模型中诱导模拟艰难梭菌感染。然而,头孢洛林在体内肠道中的浓度较低,并且与头孢曲松相比对艰难梭菌的活性增强,这意味着这种新型头孢菌素真正诱导艰难梭菌感染的倾向仍不清楚。

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