Influence of different antibiotic groups on the development of mutational resistance to colistin among Klebsiella pneumoniae

T. A. Petrovskaya, D. V. Tapalskiy
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引用次数: 1

Abstract

Objective. To determine the concentration of colistin, preventing the selection of colistin-resistant mutants of K. pneumoniae, and to evaluate the effect of antibiotics of different groups on the development of mutational resistance to colistin. Materials and Methods. Minimum inhibitory concentrations (MIC) of colistin were determined for 88 K. pneumoniae strains by the method of serial microdilutions in broth, and carbapenemase genes were detected. The selection of colistin-resistant subpopulations was performed on cation-adjusted MüllerHinton agar (MHA) with the addition of 16 mg/l colistin. Mutant prevention concentration (MPC) of colistin is determined on MHA containing 0, 1, 2, 4, 8, 16, 32, 64 and 128 mg/l of colistin. Also, MPCs of colistin were determined in the presence of a fixed concentration of the second antibiotic: clarithromycin (2 mg/l), azithromycin (2 mg/l), rifampicin (1 mg/l), clindamycin (0.5 mg/l), meropenem (8 mg/l), linezolid (2 mg/l), amikacin (1 mg/l), vancomycin (2 mg/l), doxycycline (2 mg/l). Results. All strains remained susceptible to colistin (colistin MIC 0.06–1.0 mg/l). Resistance to meropenem (MIC > 8 mg/l) was detected in 48 strains (54.5%), 46 of them were carbapenemase producers: KPC – 6 strains (6.8%), OXA-48 – 26 strains (29.5%), NDM – 14 strains (15.9%). Growth of colonies on MHA with 16 mg/l of colistin was found for 96.6% of the strains. The frequency of mutational resistance occurrence ranged from 6 × 10-9 to 10-6 (median: 2 × 10-7). The mutational nature of colistin resistance was confirmed for 36.4% of the strains. The MPC values of colistin were in the range of 16–256 mg/l; (MPC50 32 mg/l, MPC90 256 mg/l) and significantly (32–1024 times) exceeded the MIC values. In the presence of 1 mg/l of rifampicin, the MPC of colistin decreased 4–64 times (MPC50 4 mg/l, MPC90 4 mg/l). In the presence of 2 mg/l of doxycycline, MPC of colistin decreased 2–64 times for all strains (MPC50 8 mg/l, MPC90 16 mg/l). The presence of linezolid (2 mg/l) and vancomycin (2 mg/l) did not significantly change MPC of colistin. Meropenem at a concentration of 8 mg/l had no significant effect on colistin MPC for carbapenemase-producing K. pneumoniae strains. None of the antibiotics lowered the MPC50 of colistin to its clinically achievable serum concentrations. Conclusions. A high frequency of formation of mutational resistance to colistin in K. pneumoniae was revealed. The MPC values of colistin are outside the range of clinically achievable serum concentrations and may decrease in the presence of other antibiotics.
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不同抗生素组对肺炎克雷伯菌粘菌素突变耐药发展的影响
目标。测定粘菌素浓度,防止肺炎克雷伯菌产生粘菌素耐药突变体,并评价不同组抗生素对粘菌素突变耐药发展的影响。材料与方法。采用连续微稀释法测定了88株肺炎克雷伯菌对粘菌素的最低抑制浓度(MIC),并检测了碳青霉烯酶基因。在添加16 mg/l粘菌素的阳离子调节型 lererhinton琼脂(MHA)上进行粘菌素耐药亚群的筛选。在含有0、1、2、4、8、16、32、64和128 mg/l粘菌素的MHA上测定粘菌素的突变预防浓度(MPC)。同时测定了黏菌素在第二种抗生素(克拉霉素(2mg /l)、阿奇霉素(2mg /l)、利福平(1mg /l)、克林霉素(0.5 mg/l)、美罗培南(8mg /l)、利奈唑胺(2mg /l)、阿米卡星(1mg /l)、万古霉素(2mg /l)、强力霉素(2mg /l)存在下的MPCs。所有菌株均对黏菌素敏感(黏菌素MIC为0.06 ~ 1.0 mg/l)。对美罗培南(MIC - 8 mg/l)耐药48株(54.5%),其中碳青霉烯酶产生菌46株,分别为KPC - 6株(6.8%)、OXA-48 - 26株(29.5%)、NDM - 14株(15.9%)。当黏菌素浓度为16 mg/l时,96.6%的菌株能在MHA上生长。突变耐药发生频率为6 × 10-9 ~ 10-6(中位数:2 × 10-7)。36.4%的菌株被证实具有粘菌素耐药的突变性质。黏菌素的MPC值在16 ~ 256 mg/l之间;(MPC50 32 mg/l, MPC90 256 mg/l),显著超过MIC值(32 ~ 1024倍)。在1 mg/l利福平存在下,黏菌素的MPC降低4 - 64倍(MPC50 4 mg/l, MPC90 4 mg/l)。多西环素浓度为2 mg/l时,所有菌株黏菌素的MPC均降低2 ~ 64倍(MPC50为8 mg/l, MPC90为16 mg/l)。利奈唑胺(2mg /l)和万古霉素(2mg /l)的存在没有显著改变粘菌素的MPC。8 mg/l浓度的美罗培南对产碳青霉烯酶肺炎克雷伯菌黏菌素MPC无显著影响。结论:肺炎克雷伯菌对粘菌素突变耐药的形成频率较高。黏菌素的MPC值在临床可达到的血清浓度范围之外,并且在其他抗生素的存在下可能会降低。
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