Hollow-fibre infection model: adaptations for the culture and assessment of fastidious organisms.

Access microbiology Pub Date : 2024-06-28 eCollection Date: 2024-01-01 DOI:10.1099/acmi.0.000744.v3
Andrew Mead, Stefano Azzariti, Ludovic Pelligand
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Abstract

The hollow-fibre infection model (HFIM) is a valuable in vitro platform for emulating antimicrobial drug pharmacokinetic profiles. Despite its potential, standardized protocols for HFIM operation, especially concerning fastidious organisms, are lacking. This study addresses this gap by examining challenges in culturing Pasteurella multocida and Actinobacillus pleuropneumoniae, two fastidious organisms, in the HFIM. Our findings reveal effective strategies to prevent system clogging, involving multiple freeze-thaw cycles of horse blood, centrifugation and cell straining to enhance the clarity of the Mueller-Hinton fastidious medium defined by the European Committee on Antimicrobial Susceptibility Testing and Clinical and Laboratory Standards Institute. Additionally, we propose that the provision of a CO2 atmosphere, along with the utilization of gas-permeable tubing and gas vent filters, significantly facilitates the growth of fastidious organisms. Remarkably, both P. multocida and A. pleuropneumoniae were sustained for a period of up to 10 days under these optimized conditions. This study provides crucial insights into the modifications necessary to successfully culture fastidious organisms in the HFIM, paving the way for more accurate and representative in vitro models for antimicrobial drug testing. These advancements hold promise for advancing research in the field of antimicrobial pharmacokinetics and efficacy against challenging pathogens.

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中空纤维感染模型:培养和评估苛氧菌的适应性。
中空纤维感染模型(HFIM)是模拟抗菌药物药代动力学特征的重要体外平台。尽管中空纤维感染模型具有很大的潜力,但目前还缺乏标准化的中空纤维感染模型操作规程,尤其是针对快速致病菌的操作规程。本研究针对这一空白,研究了在 HFIM 中培养多杀性巴氏杆菌和胸膜肺炎放线杆菌这两种快速致病菌所面临的挑战。我们的研究结果揭示了防止系统堵塞的有效策略,包括对马血进行多次冻融循环、离心和细胞过滤,以提高欧洲抗菌药物敏感性检测委员会和临床与实验室标准研究所定义的穆勒-欣顿快速培养基的透明度。此外,我们还建议提供二氧化碳环境,并使用透气管道和透气过滤器,这将极大地促进苛氧菌的生长。值得注意的是,在这些优化条件下,多杀菌素和胸膜肺炎甲菌都能存活长达 10 天。这项研究为在 HFIM 中成功培养苛氧菌所需的改良条件提供了重要见解,为抗菌药物测试建立更准确、更具代表性的体外模型铺平了道路。这些进展有望推动抗菌药物药代动力学和对挑战性病原体疗效领域的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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