Department of Surgery-Otorhinolaryngology, Head and Neck Surgery, University of Adelaide and Flinders University, Adelaide, Australia.
Laryngoscope. 2011 May;121(5):1104-7. doi: 10.1002/lary.21717.
OBJECTIVES/HYPOTHESIS: Low pH, hydrogen peroxide generation, and the hyperosmolarity mechanisms of antimicrobial action are ubiquitous for all honeys. In addition, manuka honey has been shown to contain high concentrations of methylglyoxal (MGO), contributing the relatively superior antimicrobial activity of manuka honey compared to non-MGO honeys. In high concentrations, manuka honey is effective in killing Staphylococcus aureus biofilms in vitro. Lower concentrations of honey, however, are desirable for clinical use as a topical rinse in chronic rhinosinusitis in order to maximize the tolerability and practicality of the delivery technique. This study, therefore, was designed to evaluate the contribution of MGO to the biofilm-cidal activity of manuka honey, and furthermore determine whether the antibiofilm activity of low-dose honey can be augmented by the addition of exogenous MGO.
In vitro microbiology experiment.
Five S. aureus strains (four clinical isolates and one reference strain) were incubated to form biofilms using a previously established in vitro dynamic peg model. First, the biofilm-cidal activities of 1) manuka honey (790 mg/kg MGO), 2) non-MGO honey supplemented with 790 mg/kg MGO, and 3) MGO-only solutions were assessed. Second, the experiment was repeated using honey solutions supplemented with sufficient MGO to achieve concentrations exceeding those seen in commercially available manuka honey preparations.
All honey solutions containing a MGO concentration of 0.53 mg/mL or greater demonstrated biofilm-cidal activity; equivalent activity was achieved with ≥1.05 mg/mL MGO solution.
MGO is only partially responsible for the antibiofilm activity of manuka honey. Infusion of MGO-negative honey with MGO, however, achieves similar cidality to the equivalent MGO-rich manuka honey.
目的/假设:低 pH 值、过氧化氢生成和高渗透压是所有蜂蜜抗菌作用的普遍机制。此外,麦卢卡蜂蜜已被证明含有高浓度的甲基乙二醛(MGO),这使得麦卢卡蜂蜜相对非 MGO 蜂蜜具有相对优越的抗菌活性。在高浓度下,麦卢卡蜂蜜在体外有效杀死金黄色葡萄球菌生物膜。然而,为了在慢性鼻-鼻窦炎中最大限度地提高局部冲洗的耐受性和实用性,较低浓度的蜂蜜更适合临床使用。因此,本研究旨在评估 MGO 对麦卢卡蜂蜜生物膜杀菌活性的贡献,并进一步确定低剂量蜂蜜的抗生物膜活性是否可以通过添加外源性 MGO 来增强。
体外微生物学实验。
使用先前建立的体外动态钉模型,培养五种金黄色葡萄球菌菌株(四种临床分离株和一种参考株)形成生物膜。首先,评估 1)麦卢卡蜂蜜(790mg/kg MGO)、2)添加 790mg/kg MGO 的非 MGO 蜂蜜和 3)MGO 仅溶液的生物膜杀菌活性。其次,使用添加足够 MGO 以达到超过市售麦卢卡蜂蜜制剂浓度的蜂蜜溶液重复该实验。
所有含有 MGO 浓度为 0.53mg/ml 或更高的蜂蜜溶液均表现出生物膜杀菌活性;等效活性可通过≥1.05mg/ml MGO 溶液实现。
MGO 只是麦卢卡蜂蜜抗生物膜活性的部分原因。然而,将 MGO 阴性蜂蜜注入 MGO 可达到与等效富含 MGO 的麦卢卡蜂蜜相似的杀菌效果。
