Nitrogen Dioxide sterilization follows log-linear microbial inactivation kinetics using Geobacillus stearothermophilus biological indicators.

Q3 Medicine

PDA Journal of Pharmaceutical Science and Technology Pub Date : 2025-06-16 DOI:10.5731/pdajpst.2024.012997

Thomas P Richards, Delaney Lisco, Tiffany Bianchi, Gabriele Shahine, Huyen Nyugen, Natalie Simmons, Sylvie Dufresne, David Opie

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引用次数: 0

Abstract

Aim: The primary purpose of this study was to determine the inactivation kinetics of Geobacillus stearothermophilus biological indicators (BIs) exposed to Nitrogen Dioxide (NO₂) gas in the presence of humidity.

Methods: BIs inoculated with 6 log₁₀ G. stearothermophilus spores were used as a test substrate. Three BI Lots manufactured from each of three different BI spore crops were evaluated. Test cycles were run at room temperature with 80% relative humidity. Direct Enumeration methods were used to quantify the resistance of spores with surviving populations greater than 2 log₁₀ Fraction Negative methods were used to calculate spore populations in the quantal region. The methods were combined in order to show spore inactivation from 6 log₁₀ to approximately -2 log₁₀ The D-Value and least-squares regression (R²) were calculated.

Results: Over 100 Direct Enumeration and Fraction Negative Cycles were completed at a fixed NO₂ concentration varying only time. Critical process parameters were maintained over all cycles. Empirical data confirmed a log-linear relationship over an 8 log₁₀ population range with R² values greater than 0.8, allowing for extrapolation of the curve to -6 log₁₀ Study outcomes were comparable for all manufactured BI Lots.

Conclusions: NO₂ sterilization follows first-order log-linear microbial inactivation kinetics, which is consistent with a mechanism of action based on a single active species.

Significance and impact of study: This is the first study to report on the microbial inactivation kinetics of NO₂ sterilization. Further, this is one of the few studies to demonstrate inactivation kinetics applying ISO methodology.

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二氧化氮灭菌遵循对数线性微生物失活动力学使用嗜热硬脂地杆菌的生物指标。

目的：本研究的主要目的是确定在有湿度的情况下暴露于二氧化氮（NO2）气体中的嗜热硬脂地杆菌（Geobacillus stearthermoophilus）生物指标（BIs）的失活动力学。方法：用6 log10 G.嗜热硬脂菌孢子接种BIs作为试验底物。用三种不同的BI孢子作物生产的三个BI批次进行了评估。测试周期在室温下运行，相对湿度为80%。采用直接计数法对存活数量大于2 log10分数的孢子进行抗性定量，采用负计数法对孢子数量进行定量。为了显示孢子失活的范围从6 log10到大约-2 log10，将这些方法组合在一起，计算d值和最小二乘回归（R2）。结果：在固定NO2浓度下完成了100多次直接计数和分数负循环。关键工艺参数在所有周期中都保持不变。经验数据证实了在8 log10总体范围内的对数线性关系，R2值大于0.8，允许将曲线外推至-6 log10，研究结果对所有制造的BI批次具有可比性。结论：NO2灭菌符合一阶对数线性微生物失活动力学，符合基于单一活性种的作用机制。研究意义与影响：首次报道了NO2灭菌的微生物失活动力学。此外，这是应用ISO方法证明失活动力学的少数研究之一。

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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来源期刊

PDA Journal of Pharmaceutical Science and Technology Medicine-Medicine (all)

CiteScore

1.90

自引率

0.00%

发文量