Detection of Antibiotic Resistance and Biofilm-Producing Ability of Staphylococcus Species in Clinical Isolates

Shila Kumari Singh, M. Bhattacharjee, B. Unni, R. Kashyap
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Abstract

Abstract Background  Staphylococci are responsible for life-threatening infections in hospitals and community. Their ability to produce multiple virulence factors and antibiotic resistance is an important reason of high mortality in staphylococcal infections. Biofilm production by these organisms makes it difficult to treat. Most of the treating antibiotics are failing and making it a matter of concern. Aims  This study aims to detect the increased antibiotic resistance in biofilm-producing Staphylococcus and to compare the performance of three potential methods of detection. Methods  A total of 81 isolates of staphylococci including coagulase negative staphylococci (CoNs), methicillin resistant S. aureus (MRSA), and methicillin sensitive S. aureus (MSSA) are included in this study. After the identification, an antibiotic sensitivity test was performed. Biofilm detection was done by three different methods: Congo red agar method, tube adherence method, and microtiter plate method. Result  Out of the 81 samples, 37 CoNs, 17 MRSA, and 27 MSSA were identified. Out of them we got 43 (53%) biofilm producers by Congo red agar method, 40 (49%) by tube adherence method, and 52 (64%) producers by tissue culture plate/microtiter plate method. Most of the biofilm producers showed multiple drug resistance. Conclusion  We found out that the microtiter plate method is sensitive and reliable as compared with the other two methods. Antibiotic resistance was found to be very common in biofilm producers. This was due to the resistance developed as a result of the matrix that does not let the antibiotic bind with the organisms. This can make the treatment of Staphylococcus very difficult in the future as the rate of drug resistance is faster as compared with newly emerging antibiotics.
临床分离葡萄球菌耐药及产膜能力检测
摘要背景 葡萄球菌是医院和社区中危及生命的感染的罪魁祸首。它们产生多种毒力因子和抗生素耐药性的能力是葡萄球菌感染高死亡率的重要原因。这些生物产生的生物膜使其难以处理。大多数治疗抗生素都失败了,这让它成为一个令人担忧的问题。目标 本研究旨在检测产生生物膜的葡萄球菌中抗生素耐药性的增加,并比较三种潜在检测方法的性能。方法 本研究共包括81株葡萄球菌,包括凝固酶阴性葡萄球菌(CoNs)、耐甲氧西林金黄色葡萄球菌(MRSA)和对甲氧西林敏感的金黄色葡萄杆菌(MSSA)。鉴定后,进行抗生素敏感性试验。生物膜检测采用刚果红琼脂法、试管贴壁法和微量滴定板法三种不同的方法。后果 在81个样本中,鉴定出37个CoN、17个MRSA和27个MSSA。其中,通过刚果红琼脂法获得43个(53%)生物膜生产者,通过管粘附法获得40个(49%),通过组织培养板/微量滴定板法获得52个(64%)生产者。大多数生物膜生产者表现出多重耐药性。结论 与其他两种方法相比,微量滴定板法灵敏可靠。抗生素耐药性在生物膜生产商中非常常见。这是由于基质不让抗生素与生物体结合而产生的耐药性。这可能会使葡萄球菌的治疗在未来变得非常困难,因为与新出现的抗生素相比,耐药性更快。
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