细菌耐药性与抗生素的合理使用探究

细菌耐药性与抗生素的合理使用探究

杜闻杉,王瑞,孙晓迪,王苏会,李志平,王春红,吴娟,李秀敏

陆军总医院药剂科,陆军总医院药剂科,陆军总医院药剂科,陆军总医院药剂科,陆军总医院药剂科,陆军总医院药剂科,陆军总医院药剂科,陆军总医院药剂科

收稿日期:2017-06-21 修回日期:2018-03-02 出版日期:2018-03-25

Bacterial Resistance and the Rational Use of Antibiotics

DU Wen-shan,WANG Rui,SUN Xiao-di,WANG Su-hui,LI ZHi-ping,WANG CHun-hong,WU Juan and LI Xiu-min

Institute Department of Pharmacy,General Hospital of Army,Institute Department of Pharmacy,General Hospital of Army,Institute Department of Pharmacy,General Hospital of Army,Institute Department of Pharmacy,General Hospital of Army,Institute Department of Pharmacy,General Hospital of Army,Institute Department of Pharmacy,General Hospital of Army,Institute Department of Pharmacy,General Hospital of Army,Institute Department of Pharmacy,General Hospital of Army

Received:2017-06-21 Revised:2018-03-02 Online:2018-03-25

摘要/Abstract

摘要： 抗生素的发现使细菌感染性疾病得到了有效的治疗和控制，但抗生素的不合理应用，导致细菌耐药和临床抗菌治疗失败，目前抗生素耐药性问题也已成为全球关注的焦点。为提高抗菌药物的治疗效果，减少细菌抗药性的产生，提高对感染性疾病的治疗效果，本文就感染性疾病的抗生素抑菌机理、细菌的耐药机制以及抗生素的合理使用等方面进行综述。

Abstract: The discovery of antibiotics make the bacterial infectious diseases received effective treatment and control， but the unreasonable application of antibiotics lead to bacterial resistance and clinical antibiotic treatment failure. The problem of antibiotic resistance become the focus of global attention. In order to improve the treatment effect of antibacterial agents and reduce the occurance of bacterial resistance， the antibacterial mechanism of antibiotics， bacterial resistance mechanisms and rational use of antibiotics and so on are summarized in this paper.

杜闻杉,王瑞,孙晓迪,王苏会,李志平,王春红,吴娟,李秀敏. 细菌耐药性与抗生素的合理使用探究[J]. .

DU Wen-shan,WANG Rui,SUN Xiao-di,WANG Su-hui,LI ZHi-ping,WANG CHun-hong,WU Juan and LI Xiu-min. Bacterial Resistance and the Rational Use of Antibiotics[J]. .

参考文献

[1] Devasahayam G, Scheld WM, Hoffman PS. Newer antibacterial drugs for a new century[J]. Expert Optin Invest Drugs,2010; 19: 215-234.
[2] Containing antimicrobial resistance: a renewed effort, World Health Organization, 2010.( http: //www.who.int /bulletin /volumes/88 /12 /10 - 084236/en /,accessed 29 June 2015. )
[3] 谢春英.2005.抗生素的临床合理应用.微量元素科学, 12(6):66～71
[4] 胡小行,李国明.整合子与细菌耐药性关系的研究进展[J].国外医药:抗生素分册,2009,30( 6): 255-259.
[5] Sunde M, Norstrm M. The prevalence of, associations between and conjugal transfer of antibiotic resistance genes in Escherichiacoli isolated from Norwegian meat and meat products [J]. J AntimicrobChemother, 2006,58( 4): 741-747.
[6] Patzer J,Toleman MA,Deshpande LM, et al. Pseudomonas aeruginosa strains harbouring an unusual blaVIM-4 gene cassette isolated from hospitalized children in Poland(1998-2001) [J].JAntimicrob Chemother,2004,53(3):451-456.
[7] 孙洁,凌斌,李冰沁,等.细菌耐药机制的研究进展[J].中原医刊,2007,34(2):54-56．
[8] 糜祖煌.细菌耐药的分子机制[J].临床儿科杂志,2005,23(7): 422-424．
[9] 嵇小琴,吕莺,李磊.细菌耐药机制研究进展[J].世界感染杂志,2007,7(6):511-514．
[10] 明德松,吴一波,朱焱,等.耐甲氧西林葡萄球菌对大环内酯类抗生素的耐药机制[J].世界感染杂志,2006,6(2):140-141．
[11] 喻华,杨楠,黄文方.耐甲氧西林金葡色葡萄球菌研究进展[J].世界感染杂志,2006,6 (3):187-189．
[12] Piddock LJ.Clinically relevant chromosomally encoded multidrug resistanceefflux pumps in bacteria [J]. Clin Microbiol Rev,2006,19:382-402
[13] 李秀敏,范胜军. 细菌耐药性产生机制的研究现状[J]. 人民军医,2011,54(11):1008-1009.
[14] Poole K. Multidrug resistance in Gram-negative bacteria[J]. CurrOpin Microbiol,2001,4 (5):500-508.
[15] 雷连成,韩文瑜,段艳.大肠杆菌耐药性抑制剂作用机制的初步研究[J].中国兽药杂志, 2004,38(2):18-21．
[16] 吕晓菊.细菌耐药的机制与对策[J].临床内科杂志,2007,24(5):295-297．
[17] 郭永谊, 郭兆望, 姚骥如, 田琳. 医院抗菌药物使用与细菌耐药性分析[J].中华医院感染学杂志,2011, 21(7): 3685-3687.
[18] 吕吉云,曲芬等．多重耐药微生物及防治对策[M].北京:人民军医出版社,2011:236-238．

快速检索引用检索图表检索高级检索