某多学科医院肺炎克雷伯菌分离株对抗菌制剂的敏感性

Q4 Medicine
Lilia G. Gizatullina, Ahat B. Bakirov, Lyaylya M. Masyagutova, Rimma H. Kudakaeva, Alina R. Muzafarova
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 Materials and methods. Susceptibility to twenty one antimicrobial agents of one hundred twenty eight Klebsiella pneumoniae isolates, isolated from various loci of patients in a multidisciplinary hospital, including 16% of strains from the lower respiratory tract, 44% from wounds and wound discharge, and 40% from urine, was assessed.
 Results. Among isolates from urine, 20% of isolates were found to have the multidrug resistance (MDR) phenotype, 42% had the extreme resistance phenotype (XDR). Among the isolates of Kl. pneumoniae from purulent wounds, 18% had the MDR phenotype, and 43% had the XDR phenotype. Among the isolates of Kl. Рneumoniae from the lower respiratory tract, 37% had the MDR phenotype, 40% had the XDR phenotype. There are no pan-resistant strains in all groups. 
 The presence of genes for metallo-beta-lactamase (VIM, IMP, NDM groups) and serine carbapenemase (bovine and OXA-48) in molecular genetic study by real-time PCR of isolated Kl. pneumoniae was found in 73.4% of cases. 
 The results of determining the sensitivity of the isolates revealed a low activity of amoxicillin / clavulanic acid, III and IV generation cephalosporins (ceftazidime, cefotaxime, cefepime). 86.7% of isolates are resistant to drugs of the aminoglycoside group (amikacin), and 100% to gentamicin. Of the group of carbapenems, meropenem showed the highest activity – 26.6%, about 7% were sensitive to ertapenem. From the group of fluoroquinolones, sensitivity ranged from 20 to 30%. The highest activity of all drugs was shown by ticarcillin/clavulanate – 33.3%.
 Limitations. The criteria for inclusion in the group of examination and selection of biomaterial were the presence of previous massive antibacterial therapy in the anamnesis, the presence of catheters, drains, etc.
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 Materials and methods. Susceptibility to twenty one antimicrobial agents of one hundred twenty eight Klebsiella pneumoniae isolates, isolated from various loci of patients in a multidisciplinary hospital, including 16% of strains from the lower respiratory tract, 44% from wounds and wound discharge, and 40% from urine, was assessed.
 Results. Among isolates from urine, 20% of isolates were found to have the multidrug resistance (MDR) phenotype, 42% had the extreme resistance phenotype (XDR). Among the isolates of Kl. pneumoniae from purulent wounds, 18% had the MDR phenotype, and 43% had the XDR phenotype. Among the isolates of Kl. Рneumoniae from the lower respiratory tract, 37% had the MDR phenotype, 40% had the XDR phenotype. There are no pan-resistant strains in all groups. 
 The presence of genes for metallo-beta-lactamase (VIM, IMP, NDM groups) and serine carbapenemase (bovine and OXA-48) in molecular genetic study by real-time PCR of isolated Kl. pneumoniae was found in 73.4% of cases. 
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引用次数: 0

摘要

介绍。微生物非凡的遗传潜力得益于人类过度使用抗生素而产生多种耐药机制。俄罗斯人口的庞大和异质性,人口、文化和社会经济指标存在显著差异的地区,医疗保健的管理特点和可获得性,是影响某些微生物菌株抗菌治疗耐药基因传播的重要因素。 材料和方法。评估从某多学科医院患者不同位点分离的128株肺炎克雷伯菌对21种抗菌药物的敏感性,其中16%来自下呼吸道,44%来自伤口和伤口分泌物,40%来自尿液;结果。尿液分离株中,20%为多重耐药表型(MDR), 42%为极耐药表型(XDR)。在化脓性伤口分离的肺炎链球菌中,18%为MDR表型,43%为XDR表型。Kl. Рneumoniae下呼吸道分离株中,37%为MDR表型,40%为XDR表型。在所有群体中都没有普遍耐药菌株。& # x0D;实时荧光定量PCR检测发现73.4%的肺炎链球菌分离株存在金属- β -内酰胺酶(VIM、IMP、NDM组)和丝氨酸碳青霉烯酶(牛和OXA-48)基因。& # x0D;菌株的敏感性测定结果显示,阿莫西林/克拉维酸、第三代和第四代头孢菌素(头孢他啶、头孢噻肟、头孢吡肟)的活性较低。对氨基糖苷类药物(阿米卡星)耐药率为86.7%,对庆大霉素耐药率为100%。碳青霉烯类中,美罗培南活性最高,达26.6%,约7%对厄他培南敏感。在氟喹诺酮类药物组中,敏感性从20%到30%不等。所有药物的活性最高的是替卡西林/克拉维酸酯,为33.3%。 的局限性。纳入生物材料检查和选择组的标准为:既往有大量抗菌药物治疗,有导管、引流管等;结论。结果表明,具有多重耐药表型的肺炎链球菌所占比例较高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Susceptibility to antimicrobial preparations of Klebsiella pneumoniae strains isolated from patients in a multidisciplinary hospital
Introduction. The extraordinary genetic potential of microorganisms has benefited from human overuse antibiotics to develop multiple resistance mechanisms. The large size and heterogeneity of the Russian population, the presence of territories with significant differences in demographic, cultural, and socio-economic indicators, the features of the management and availability of medical care are significant factors influencing the spread of resistance genes to antibacterial therapy of some strains of microorganisms. Materials and methods. Susceptibility to twenty one antimicrobial agents of one hundred twenty eight Klebsiella pneumoniae isolates, isolated from various loci of patients in a multidisciplinary hospital, including 16% of strains from the lower respiratory tract, 44% from wounds and wound discharge, and 40% from urine, was assessed. Results. Among isolates from urine, 20% of isolates were found to have the multidrug resistance (MDR) phenotype, 42% had the extreme resistance phenotype (XDR). Among the isolates of Kl. pneumoniae from purulent wounds, 18% had the MDR phenotype, and 43% had the XDR phenotype. Among the isolates of Kl. Рneumoniae from the lower respiratory tract, 37% had the MDR phenotype, 40% had the XDR phenotype. There are no pan-resistant strains in all groups. The presence of genes for metallo-beta-lactamase (VIM, IMP, NDM groups) and serine carbapenemase (bovine and OXA-48) in molecular genetic study by real-time PCR of isolated Kl. pneumoniae was found in 73.4% of cases. The results of determining the sensitivity of the isolates revealed a low activity of amoxicillin / clavulanic acid, III and IV generation cephalosporins (ceftazidime, cefotaxime, cefepime). 86.7% of isolates are resistant to drugs of the aminoglycoside group (amikacin), and 100% to gentamicin. Of the group of carbapenems, meropenem showed the highest activity – 26.6%, about 7% were sensitive to ertapenem. From the group of fluoroquinolones, sensitivity ranged from 20 to 30%. The highest activity of all drugs was shown by ticarcillin/clavulanate – 33.3%. Limitations. The criteria for inclusion in the group of examination and selection of biomaterial were the presence of previous massive antibacterial therapy in the anamnesis, the presence of catheters, drains, etc. Conclusions. There was established a high proportion of strains Kl. pneumoniae with the phenotype of multiple antibiotic resistance.
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来源期刊
Gigiena i sanitariia
Gigiena i sanitariia Environmental Science-Pollution
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0.80
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