A. D. Dehkharghani, S. Haghighat, M. R. Farzami, M. Rahbar
{"title":"尿路感染产ampc大肠杆菌耐药机制研究","authors":"A. D. Dehkharghani, S. Haghighat, M. R. Farzami, M. Rahbar","doi":"10.22037/AMLS.V6.32573","DOIUrl":null,"url":null,"abstract":"Background and Aim: AmpC β-lactamases are capable of hydrolyzing all β-lactams except cefepime and carbapenems. The detection of AmpC-producing Escherichia coli has a high priority in infection management. This research is aimed to investigate the resistant AmpC- generating E. coli isolates and identify their genetic variety. \nMethods: In this study, 230 E. coli isolates from patients having urinary tract infection symptoms were investigated in 2017-2018 to assess their susceptibility toward antimicrobial agents. AmpC genes were evaluated by PCR and molecular typing using the 10-loci MLVA method. MLVA images were examined by BioNumerics 6.6 software through the use of the UPGMA algorithms. \nResults: The highest frequencies of susceptibility among E. coli isolates were to meropenem 96.08%, piperacillin-tazobactam 90.43%, followed by gentamicin 66.54%, ceftazidime 50%, ciprofloxacin 48.26%, ceftriaxone 41.74%. All E. coli isolates were resistant to amoxicillin-clavulanate. Thirty-eight AmpC-generating E. coli isolates were detected. The most abundant determinant was CIT and EBC, FOX, and DHA had the next ranks, respectively. Six major clusters and a singleton were identified by MLVA. \nConclusion: AmpC-generation ability is an effective feature in the resistance of E. coli isolates and its investigation is of crucial significance in infection management. The major mechanisms of AmpC beta-lactamase vary depending on time and geographical location. \n*Corresponding Author: Mohammad Rahbar; Email: rahbar@health.gov.ir \nPlease cite this article as: Dolatyar Dehkharghani A, Haghighat S, Rahnamaye Farzami M, Rahbar M. The Mechanism of Resistance in AmpC-Producing Escherichia coli Isolated from Urinary Tract Infections. Arch Med Lab Sci. 2020;6:e6. https://doi.org/10.22037/amls.v6.32573","PeriodicalId":18401,"journal":{"name":"Medical laboratory sciences","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2020-11-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"The Mechanism of Resistance in AmpC-Producing Escherichia coli Isolated from Urinary Tract Infections:\",\"authors\":\"A. D. Dehkharghani, S. Haghighat, M. R. Farzami, M. Rahbar\",\"doi\":\"10.22037/AMLS.V6.32573\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Background and Aim: AmpC β-lactamases are capable of hydrolyzing all β-lactams except cefepime and carbapenems. The detection of AmpC-producing Escherichia coli has a high priority in infection management. This research is aimed to investigate the resistant AmpC- generating E. coli isolates and identify their genetic variety. \\nMethods: In this study, 230 E. coli isolates from patients having urinary tract infection symptoms were investigated in 2017-2018 to assess their susceptibility toward antimicrobial agents. AmpC genes were evaluated by PCR and molecular typing using the 10-loci MLVA method. MLVA images were examined by BioNumerics 6.6 software through the use of the UPGMA algorithms. \\nResults: The highest frequencies of susceptibility among E. coli isolates were to meropenem 96.08%, piperacillin-tazobactam 90.43%, followed by gentamicin 66.54%, ceftazidime 50%, ciprofloxacin 48.26%, ceftriaxone 41.74%. All E. coli isolates were resistant to amoxicillin-clavulanate. Thirty-eight AmpC-generating E. coli isolates were detected. The most abundant determinant was CIT and EBC, FOX, and DHA had the next ranks, respectively. Six major clusters and a singleton were identified by MLVA. \\nConclusion: AmpC-generation ability is an effective feature in the resistance of E. coli isolates and its investigation is of crucial significance in infection management. 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引用次数: 1
摘要
背景与目的:AmpC β-内酰胺酶能水解除头孢吡肟和碳青霉烯类外的所有β-内酰胺类。产ampc大肠杆菌的检测在感染管理中具有高度的优先性。本研究旨在研究产生耐药AmpC的大肠杆菌分离株,并鉴定其遗传多样性。方法:本研究对2017-2018年从有尿路感染症状的患者中分离出的230株大肠杆菌进行调查,评估其对抗菌药物的敏感性。采用PCR和10位点MLVA分型方法对AmpC基因进行鉴定。通过使用UPGMA算法,使用BioNumerics 6.6软件对MLVA图像进行检查。结果:大肠杆菌对美罗培南96.08%、哌拉西林-他唑巴坦90.43%的敏感性最高,其次是庆大霉素66.54%、头孢他啶50%、环丙沙星48.26%、头孢曲松41.74%。所有大肠杆菌分离株均对阿莫西林-克拉维酸盐耐药。检测到38株产生ampc的大肠杆菌。最丰富的决定因素是CIT和EBC, FOX和DHA分别排在第二位。MLVA鉴定出6个主要簇和1个单簇。结论:ampc生成能力是大肠杆菌耐药的有效特征,其研究对感染管理具有重要意义。AmpC -内酰胺酶的主要作用机制因时间和地理位置而异。通讯作者:Mohammad Rahbar;Dolatyar Dehkharghani A, Haghighat S, Rahnamaye Farzami M, Rahbar M.尿路感染产ampc大肠杆菌的耐药性机制。中华医学杂志,2020;6:96 - 96。https://doi.org/10.22037/amls.v6.32573
The Mechanism of Resistance in AmpC-Producing Escherichia coli Isolated from Urinary Tract Infections:
Background and Aim: AmpC β-lactamases are capable of hydrolyzing all β-lactams except cefepime and carbapenems. The detection of AmpC-producing Escherichia coli has a high priority in infection management. This research is aimed to investigate the resistant AmpC- generating E. coli isolates and identify their genetic variety.
Methods: In this study, 230 E. coli isolates from patients having urinary tract infection symptoms were investigated in 2017-2018 to assess their susceptibility toward antimicrobial agents. AmpC genes were evaluated by PCR and molecular typing using the 10-loci MLVA method. MLVA images were examined by BioNumerics 6.6 software through the use of the UPGMA algorithms.
Results: The highest frequencies of susceptibility among E. coli isolates were to meropenem 96.08%, piperacillin-tazobactam 90.43%, followed by gentamicin 66.54%, ceftazidime 50%, ciprofloxacin 48.26%, ceftriaxone 41.74%. All E. coli isolates were resistant to amoxicillin-clavulanate. Thirty-eight AmpC-generating E. coli isolates were detected. The most abundant determinant was CIT and EBC, FOX, and DHA had the next ranks, respectively. Six major clusters and a singleton were identified by MLVA.
Conclusion: AmpC-generation ability is an effective feature in the resistance of E. coli isolates and its investigation is of crucial significance in infection management. The major mechanisms of AmpC beta-lactamase vary depending on time and geographical location.
*Corresponding Author: Mohammad Rahbar; Email: rahbar@health.gov.ir
Please cite this article as: Dolatyar Dehkharghani A, Haghighat S, Rahnamaye Farzami M, Rahbar M. The Mechanism of Resistance in AmpC-Producing Escherichia coli Isolated from Urinary Tract Infections. Arch Med Lab Sci. 2020;6:e6. https://doi.org/10.22037/amls.v6.32573
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