An Easy New Modified Method for Detection of Antibacterial Susceptibility in Biofilm-Growing Bacteria

Foroogh Faridi, N. Bahador, S. Shoja, S. Abbasi
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Abstract

Background: Biofilms are a major challenge in treating infections. Clinically, biofilms are often associated with chronic infections, so rapid and accurate methods of investigating the antibiotic susceptibility of biofilm bacteria are very important for faster diagnosis and treatment. In this study, a new modified microplate method was proposed to evaluate the antibiotic susceptibility of alive bacteria in the biofilm. Materials and Methods: The study was conducted on clinical isolates of Pseudomonas aeruginosa and standard strain over a period of one year. The susceptibility test was conducted according to a modified version of the Calgary biofilm device method. In the last step, to study the living bacteria in the biofilm, oxidative-fermentative (OF) medium was used to measure the acid production following the use of glucose by the bacteria. The biofilm-growing bacteria was determined by observing the color changing and also measuring optical density (OD) at 427 nm of OF medium. Results: The method in this study could evaluate the effect of antibiotics on biofilm bacteria based on glucose metabolism. The results indicated that this method can quickly and easily identify alive bacteria in biofilm at a low cost and without the need for any special devices. Conclusion: Although biofilms are involved in most incurable clinical cases, there is currently no guideline to assist physicians in treating biofilm-related infections. Therefore, it is necessary to establish a specific sensitivity test for biofilm or to approve a new method for routine use in diagnostic laboratories.
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一种简便的生物膜生长细菌抗菌敏感性检测新方法
背景:生物膜是治疗感染的主要挑战。临床上,生物膜常与慢性感染有关,因此快速准确地研究生物膜细菌的抗生素敏感性对于更快地诊断和治疗非常重要。本研究提出了一种新的改良微孔板法来评价生物膜中活菌的抗生素敏感性。材料与方法:对铜绿假单胞菌临床分离株和标准菌株进行为期一年的研究。药敏试验采用改良版卡尔加里生物膜装置法进行。最后一步,为了研究生物膜中的活菌,采用氧化发酵(OF)培养基测定细菌利用葡萄糖后的产酸量。在427 nm处,通过观察颜色变化和测量光密度(OD)来确定生物膜生长细菌。结果:本方法可基于葡萄糖代谢评价抗生素对生物膜菌的影响。结果表明,该方法可以快速、方便地鉴定生物膜中的活菌,成本低,不需要任何特殊的设备。结论:尽管大多数无法治愈的临床病例涉及生物膜,但目前尚无指导医生治疗生物膜相关感染的指南。因此,有必要建立一种生物膜特异性敏感性试验或批准一种新的诊断实验室常规使用方法。
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