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Azithromycin Exerts Bactericidal Activity and Enhances Innate Immune Mediated Killing of MDR .阿奇霉素具有杀菌活性并增强先天性免疫介导的多重耐药菌杀伤作用。
Infect Microbes Dis. 2020 Mar;2(1):10-17. doi: 10.1097/im9.0000000000000014. Epub 2019 Dec 17.
2
Nano-Based Drug Delivery or Targeting to Eradicate Bacteria for Infection Mitigation: A Review of Recent Advances.基于纳米的药物递送或靶向以根除细菌减轻感染:近期进展综述
Front Chem. 2020 Apr 24;8:286. doi: 10.3389/fchem.2020.00286. eCollection 2020.
3
Increased Azithromycin Susceptibility of Multidrug-Resistant Gram-Negative Bacteria on RPMI-1640 Agar Assessed by Disk Diffusion Testing.通过纸片扩散法检测在RPMI-1640琼脂上多药耐药革兰氏阴性菌对阿奇霉素敏感性增加
Antibiotics (Basel). 2020 Apr 29;9(5):218. doi: 10.3390/antibiotics9050218.
4
Nanomedicine Fight against Antibacterial Resistance: An Overview of the Recent Pharmaceutical Innovations.纳米医学对抗抗菌药物耐药性:近期药物创新概述
Pharmaceutics. 2020 Feb 8;12(2):142. doi: 10.3390/pharmaceutics12020142.
5
Considerations and Caveats in Combating ESKAPE Pathogens against Nosocomial Infections.对抗ESKAPE病原体以防治医院感染的注意事项及警示
Adv Sci (Weinh). 2019 Dec 5;7(1):1901872. doi: 10.1002/advs.201901872. eCollection 2020 Jan.
6
Klebsiella pneumoniae: an increasing threat to public health.肺炎克雷伯菌:对公众健康的日益威胁。
Ann Clin Microbiol Antimicrob. 2020 Jan 9;19(1):1. doi: 10.1186/s12941-019-0343-8.
7
Nanoniosome-encapsulated levoflaxicin as an antibacterial agent against Brucella.纳米囊泡包裹的左氧氟沙星作为一种抗布鲁氏菌的抗菌剂。
J Basic Microbiol. 2020 Mar;60(3):281-290. doi: 10.1002/jobm.201900454. Epub 2019 Dec 19.
8
Preparation, physicochemical properties, in vitro evaluation and release behavior of cephalexin-loaded niosomes.载头孢氨苄的尼欧索米脂质体的制备、理化性质、体外评价及释放行为。
Int J Pharm. 2019 Oct 5;569:118580. doi: 10.1016/j.ijpharm.2019.118580. Epub 2019 Jul 30.
9
Evaluation of the Bactericidal Activity of Fosfomycin in Combination with Selected Antimicrobial Comparison Agents Tested against Gram-Negative Bacterial Strains by Using Time-Kill Curves.采用时间杀菌曲线评价磷霉素与选定抗菌对照药物联合对革兰氏阴性菌的杀菌活性。
Antimicrob Agents Chemother. 2019 Apr 25;63(5). doi: 10.1128/AAC.02549-18. Print 2019 May.
10
Advances of Non-Ionic Surfactant Vesicles (Niosomes) and Their Application in Drug Delivery.非离子表面活性剂囊泡(Niosomes)的研究进展及其在药物递送中的应用
Pharmaceutics. 2019 Jan 29;11(2):55. doi: 10.3390/pharmaceutics11020055.

评估阿奇霉素非诺体单独使用以及与左氧氟沙星联合使用对广泛耐药肺炎克雷伯菌临床分离株的体外活性。

Assessment of the in vitro activity of azithromycin niosomes alone and in combination with levofloxacin on extensively drug-resistant Klebsiella pneumoniae clinical isolates.

机构信息

Medical Microbiology and Immunology Department, Faculty of Medicine, Alexandria University, Khartoum Square, Azarita, Alexandria, 21512, Egypt.

Pharmaceutics Department, Faculty of Pharmacy, Alexandria University, Alexandria, 21512, Egypt.

出版信息

Braz J Microbiol. 2021 Jun;52(2):597-606. doi: 10.1007/s42770-021-00433-2. Epub 2021 Jan 22.

DOI:10.1007/s42770-021-00433-2
PMID:33483896
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8105464/
Abstract

BACKGROUND AND AIM

Extensively drug-resistant (XDR) Klebsiella pneumoniae represent a major threat in intensive care units. The aim of the current study was to formulate a niosomal form of azithromycin (AZM) and to evaluate its in vitro effect on XDR K. pneumoniae as a single agent or in combination with levofloxacin.

MATERIAL AND METHODS

Forty XDR K. pneumoniae isolates (23 colistin-sensitive and 17 colistin-resistant) were included in the study. Formulation and characterization of AZM niosomes were performed. The in vitro effect of AZM solution/niosomes alone and in combination (with levofloxacin) was investigated using the checkerboard assay, confirmed with time-kill assay and post-antibiotic effect (PAE).

RESULTS

The AZM niosome mean minimal inhibitory concentration (MIC) (187.4 ± 209.1 μg/mL) was significantly lower than that of the AZM solution (342.5 ± 343.4 μg/mL). AZM niosomes/levofloxacin revealed a 40% synergistic effect compared to 20% with AZM solution/levofloxacin. No antagonistic effect was detected. The mean MIC values of both AZM niosomes and AZM solution were lower in the colistin-resistant group than in the colistin-sensitive group. The mean PAE time of AZM niosomes (2.3 ± 1.09 h) was statistically significantly longer than that of the AZM solution (1.37 ± 0.5 h) (p = 0.023).

CONCLUSION

AZM niosomes were proved to be more effective than AZM solution against XDR K. pneumoniae, even colistin-resistant isolates.

摘要

背景与目的

广泛耐药(XDR)肺炎克雷伯菌对重症监护病房构成重大威胁。本研究的目的是制备阿奇霉素(AZM)的非离子型囊泡并评估其作为单一药物或与左氧氟沙星联合应用对 XDR 肺炎克雷伯菌的体外作用。

材料与方法

本研究纳入了 40 株 XDR 肺炎克雷伯菌分离株(23 株对黏菌素敏感,17 株对黏菌素耐药)。进行了 AZM 非离子型囊泡的制剂和表征。采用棋盘微量稀释法研究了 AZM 溶液/非离子型囊泡单独及联合(与左氧氟沙星)的体外作用,并通过时间杀伤试验和抗生素后效应(PAE)进行了验证。

结果

AZM 非离子型囊泡的平均最小抑菌浓度(MIC)(187.4 ± 209.1 μg/mL)显著低于 AZM 溶液(342.5 ± 343.4 μg/mL)。与 AZM 溶液/左氧氟沙星相比,AZM 非离子型囊泡/左氧氟沙星显示出 40%的协同作用。未检测到拮抗作用。在耐黏菌素组,AZM 非离子型囊泡和 AZM 溶液的平均 MIC 值均低于黏菌素敏感组。AZM 非离子型囊泡的平均 PAE 时间(2.3 ± 1.09 h)显著长于 AZM 溶液(1.37 ± 0.5 h)(p = 0.023)。

结论

与 AZM 溶液相比,AZM 非离子型囊泡对 XDR 肺炎克雷伯菌,甚至是耐黏菌素的分离株更有效。