洋葱伯克霍尔德菌复合体的杀生物剂敏感性
Biocide susceptibility of the Burkholderia cepacia complex.
作者信息
Rose Helen, Baldwin Adam, Dowson Christopher G, Mahenthiralingam Eshwar
机构信息
Cardiff School of Biosciences, Cardiff University, Cardiff, UK.
出版信息
J Antimicrob Chemother. 2009 Mar;63(3):502-10. doi: 10.1093/jac/dkn540. Epub 2009 Jan 18.
OBJECTIVES
The Burkholderia cepacia complex (Bcc) species are important opportunistic pathogens with intrinsic antibiotic resistance. They are also well known as contaminants of disinfectants, yet their biocide susceptibility has not been studied in detail. We investigated Bcc biocide susceptibility and correlated it to their taxonomy, antibiotic susceptibility and ability to form biofilms.
METHODS
Genetically distinct Bcc strains belonging to 12 of the defined species were examined. Biocide susceptibility was assessed by (i) broth dilution MIC assays, (ii) agar growth-based MBC screens and (iii) suspension tests. Antibiotic MIC was determined by Etest strips, and the ability to form biofilms was examined in a 96-well plate assay.
RESULTS
Biocide susceptibility varied across the Bcc complex with high MIC recorded for chlorhexidine (>100 mg/L), cetylpyridinium chloride (>200 mg/L), triclosan (>500 mg/L), benzalkonium chloride (>400 mg/L) and povidone (>50 000 mg/L). Species-dependent differences were apparent only for cetylpyridinium chloride. There was no correlation between biocide susceptibility and (i) antibiotic susceptibility or (ii) the ability to form biofilms. Biocide MBC was considerably higher than the MIC (chlorhexidine, 6-fold greater; cetylpyridinium chloride, 20-fold greater). Cystic fibrosis outbreak strains (Burkholderia multivorans Glasgow strain and Burkholderia cenocepacia ET12) possessed elevated chlorhexidine resistance, and Bcc bacteria were also shown to remain viable in current commercial biocide formulations.
CONCLUSIONS
Bcc bacteria are resistant to a wide range of biocides and further representatives of this group should be included as reference strains in the development of new anti-infectives and commercial formulations.
目的
洋葱伯克霍尔德菌复合体(Bcc)菌种是具有内在抗生素耐药性的重要机会致病菌。它们也是消毒剂常见的污染物,但其对杀菌剂的敏感性尚未得到详细研究。我们调查了Bcc对杀菌剂的敏感性,并将其与它们的分类学、抗生素敏感性以及形成生物膜的能力相关联。
方法
检测了属于12个已定义菌种的基因不同的Bcc菌株。通过以下方法评估杀菌剂敏感性:(i)肉汤稀释法测定最低抑菌浓度(MIC),(ii)基于琼脂生长的最低杀菌浓度(MBC)筛选,以及(iii)悬液试验。通过Etest试纸条测定抗生素MIC,并在96孔板试验中检测形成生物膜的能力。
结果
Bcc复合体中杀菌剂敏感性各不相同,对氯己定(>100 mg/L)、西吡氯铵(>200 mg/L)、三氯生(>500 mg/L)、苯扎氯铵(>400 mg/L)和聚维酮(>50 000 mg/L)记录到高MIC值。仅西吡氯铵存在明显的种属依赖性差异。杀菌剂敏感性与(i)抗生素敏感性或(ii)形成生物膜的能力之间无相关性。杀菌剂MBC显著高于MIC(氯己定高6倍;西吡氯铵高20倍)。囊性纤维化暴发菌株(多食伯克霍尔德菌格拉斯哥菌株和洋葱伯克霍尔德菌ET12)对氯己定的耐药性增强,并且还表明Bcc细菌在当前商业杀菌剂制剂中仍可存活。
结论
Bcc细菌对多种杀菌剂具有耐药性,在开发新型抗感染药物和商业制剂时,应将该类菌群的更多代表菌株纳入参考菌株。
Zotero 插件