多种有机酸、其盐类及精油对猪肠道病原菌的抗菌活性。
Antimicrobial activity of a selection of organic acids, their salts and essential oils against swine enteropathogenic bacteria.
作者信息
Gómez-García Manuel, Sol Cinta, de Nova Pedro J G, Puyalto Mónica, Mesas Luis, Puente Héctor, Mencía-Ares Óscar, Miranda Rubén, Argüello Héctor, Rubio Pedro, Carvajal Ana
机构信息
1Department of Animal Health, Faculty of Veterinary Medicine, Universidad de León, Campus de Vegazana, s/n, 24007 León, Spain.
Norel SA, Calle Jesús Aprendiz n° 19, 28007 Madrid, Spain.
出版信息
Porcine Health Manag. 2019 Dec 27;5:32. doi: 10.1186/s40813-019-0139-4. eCollection 2019.
BACKGROUND
Accurate screening of new alternative antimicrobial compounds is essential for their use to control pathogens in swine production due to the replacement of antibiotics and zinc oxide. Most in vitro studies have separately reported the antimicrobial activity of organic acids and essential oils (EOs) using diverse methods for susceptibility testing. In addition, in vitro outcomes can help in the selection of the suitable antimicrobial compound and effective combinations of these compounds in the control of pathogens of interest in pork production. Therefore, the aim of this study is to determinate the antibacterial activity of six organic acids and six EOs against , spp. and isolates, some of them multi-resistant to antibiotics, from swine origin. The synergistic effects between the products with higher activity for each bacteria were also calculated.
RESULTS
All products tested showed activity against at least one bacterial species, except for black pepper EO. The results showed that formic acid with the shortest chain length was the most effective against and spp. while the sodium salt of coconut fatty acid distillates with long chain acids was the most effective against . The susceptibility of isolates tested to EOs was similar, a result that demonstrates a similar activity of these products against phylogenetically unrelated pathogens. In addition, an additive effect was shown for carvacrol-oregano EO for , formic acid-carvacrol and formic acid-thymol for spp. and carvacrol-cinamaldehyde for .
CONCLUSIONS
The susceptibility of isolates to EOs was similar, a result that demonstrates a similar activity of these products against phylogenetically unrelated pathogens in contrast to organic acids. In addition, an additive effect was shown for several combinations of these compounds.
背景
由于抗生素和氧化锌的替代,准确筛选新型替代抗菌化合物对于其在养猪生产中控制病原体的应用至关重要。大多数体外研究分别报告了使用不同药敏试验方法的有机酸和精油(EOs)的抗菌活性。此外,体外研究结果有助于选择合适的抗菌化合物以及这些化合物在控制猪肉生产中感兴趣的病原体方面的有效组合。因此,本研究的目的是测定六种有机酸和六种EOs对来自猪源的、、种菌株以及一些对抗生素多重耐药的菌株的抗菌活性。还计算了对每种细菌活性较高的产品之间的协同效应。
结果
除黑胡椒EO外,所有测试产品均对至少一种细菌具有活性。结果表明,链长最短的甲酸对和种菌株最有效,而含有长链酸的椰子脂肪酸蒸馏物钠盐对最有效。测试的分离株对EOs的敏感性相似,这一结果表明这些产品对系统发育无关的病原体具有相似的活性。此外,香芹酚 - 牛至EO对、甲酸 - 香芹酚和甲酸 - 百里香酚对种菌株以及香芹酚 - 肉桂醛对表现出相加作用。
结论
分离株对EOs的敏感性相似,这一结果表明与有机酸相比,这些产品对系统发育无关的病原体具有相似的活性。此外,这些化合物的几种组合表现出相加作用。
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