用Lambert-Pearson模型测定葱提取物对嗜水气单胞菌的MIC和NIC值

Journal of Environmental Microbiology and Toxicology Pub Date : 2022-07-31 DOI:10.54987/jemat.v10i1.669

Ahmad Syazwan Ismail, M. Shukor, N. A. Masdor

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引用次数: 0

摘要

植物提取物因其抑制细菌生长的能力而被广泛研究。由于这些发现没有在基准值中报道，因此无法将本研究的结果与其他研究进行比较。对数据进行非线性回归分析是确定该值的最准确方法之一。采用Lambert和Pearson修正的Gompertz模型，成功测定了葱甲醇提取物对嗜水气单胞菌的最小非抑制浓度(NIC)和抑制浓度(MIC)值。使用非线性回归是有用的，因为现在可以估计MIC和NIC的95%置信区间。模型的高相关系数(0.995)表明，大蒜的MIC和NIC值(28.02 mg/mL, 95%可信区间为26.42 ~ 29.71 mg/mL)和(12.60 mg/mL, 95%可信区间为11.88 ~ 13.37 mg/mL)表明大蒜可以作为一种鱼类必需病原体的抑制剂。

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MIC and NIC Values Determination of Allivum sativum Extract Against Aeromonas hydrophila Using the Lambert-Pearson Model

Plant extracts have been studied extensively for their ability to suppress the growth of bacteria. Because these findings were not reported on in the benchmark values, it was not possible to compare the results of this study to other investigations. Nonlinear regression analysis of the data is one of the most accurate methods of determining this value. The Minimum Non-inhibitory concentration (NIC) and inhibitory concentration (MIC) values of the methanolic extract of Allium sativum against the pathogen Aeromonas hydrophila were successfully determined using Lambert and Pearson's modified Gompertz model. Using nonlinear regression is useful since the 95% confidence interval of the MIC and NIC can now be estimated. As shown by the model's high correlation coefficient (0.995), garlic's MIC and NIC values (28.02 mg/mL, 95% Confidence Interval from 26.42 to 29.71 mg/mL) and (12.60 mg/mL, 95% Confidence Interval from 11.88 to 13.37 mg/mL) suggest that it could be used as an inhibitory agent against this essential fish pathogen.

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Journal of Environmental Microbiology and Toxicology

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