互花千层挥发油主要成分的抗菌活性研究。

C F Carson, T V Riley
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引用次数: 668

摘要

茶树油,或互花千层树的精油,作为一种天然抗菌剂越来越受欢迎。采用圆盘扩散法和肉汤微量稀释法对茶树油8种成分的抑菌活性进行了评价。还尝试克服测试在水介质中溶解度有限的化合物时遇到的方法问题。在评估了有增溶剂和不加增溶剂的培养基后,采用圆盘扩散法测定了一系列微生物对1,8-桉树油脑、1-松油烯-4-醇、红伞花烃、芳樟醇、-松油烯、-松油烯、-松油醇和松油烯的敏感性。虽然圆盘扩散法缺乏重复性,但它被认为是一种有用的筛选抗菌活性的方法。松油烯-4-醇对所有受试菌均有抑菌活性,而红伞花素无抑菌活性。芳樟醇和-松油醇对除铜绿假单胞菌外的所有生物均有活性。采用肉汤微量稀释法测定各组分对白色念珠菌、大肠杆菌和金黄色葡萄球菌的最低抑菌浓度和最低杀菌浓度。对该方法的改进克服了与油成分相关的溶解度和浊度问题,并允许对每种成分的抗菌活性进行可重复性量化。最低抑菌浓度与抑制区之间存在合理的一致性。这些结果可能对茶树油作为抗菌药物的未来发展具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Antimicrobial activity of the major components of the essential oil of Melaleuca alternifolia.

Tea tree oil, or the essential oil of Melaleuca alternifolia, is becoming increasingly popular as a naturally occurring antimicrobial agent. The antimicrobial activity of eight components of tea tree oil was evaluated using disc diffusion and broth microdilution methods. Attempts were also made to overcome methodological problems encountered with testing compounds which have limited solubility in aqueous media. After assessing media with and without solubilizing agents, the disc diffusion method was used to determine the susceptibility of a range of micro-organisms to 1,8-cineole, 1-terpinen-4-ol, rho-cymene, linalool, alpha-terpinene, gamma-terpinene, alpha-terpineol and terpinolene. While the disc diffusion method lacked reproducibility, it was considered useful as a procedure for screening for antimicrobial activity. Terpinen-4-ol was active against all the test organisms while rho-cymene demonstrated no antimicrobial activity. Linalool and alpha-terpineol were active against all organisms with the exception of Pseudomonas aeruginosa. Minimum inhibitory and minimum cidal concentrations of each component against Candida albicans, Escherichia coli and Staphylococcus aureus were determined using a broth microdilution method. Modifications to this method overcame solubility and turbidity problems associated with the oil components and allowed the antimicrobial activity of each of the components to be quantified reproducibly. There was reasonable agreement between minimum inhibitory concentrations and zones of inhibition. These results may have significant implications for the future development of tea tree oil as an antimicrobial agent.

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