鲍曼不动杆菌临床株多重药物外排泵AdeABC的研究

目的 研究鲍曼不动杆菌(Acinetobacter baumannii)临床株外排泵AdeABC的表达与耐药的关系及表达调控.方法 微量肉汤稀释法检测鲍曼不动杆菌临床株对抗菌药物的敏感性及泵抑制剂作用,RT-PCR检测泵基因adeB的mRNA表达水平,PCR扩增泵调控基因adeRS并测序分析.结果 30株多重耐药的鲍曼不动杆菌临床株及5株敏感株均存在泵结构基因片段adeB和调控基因adeRS,随机选取15株多重耐药株中均检测到adeB的mRNA表达,而在5株敏感株中无表达.测定2株多重耐药株调控基因adeRS序列均出现基因突变,发生氨基酸替代及缺失.结论 鲍曼不动杆菌临床株外排泵AdeABC的表达可能与耐药性有关,在多重耐药株中存在着调控基因adeRS的基因序列变化.     

鲍曼不动杆菌临床株的外排泵研究

目的 探讨鲍曼不动杆菌临床株外排泵AdeABC、AdeIJK、AdeFGH、AbeM、AbeS、CraA、MdtL的表达与耐药的关系.方法 收集多重耐药鲍曼不动杆菌临床株32株和敏感株10株,PCR扩增泵基因;选取主要克隆型的21株多重耐药株和10株敏感株,实时荧光定量RT-PCR方法检测泵基因adeB、adeJ、adeG、abeM、abeS、craA、mdtL的mRNA相对表达水平,PCR扩增泵调控基因adeRS、adeL并测序分析.结果 32株多重耐药鲍曼不动杆菌临床株中携带泵结构基因片段adeB100％、adeJ 100％、adeG 100％、abeM 96.88％、abeS 100％、craA 100％、mdtL 93.75％,10株敏感株均存在7种泵结构基因片段;主要克隆型的21株多重耐药株和10株敏感株adeB、abeM、mdtL的mRNA相对表达水平的差异有统计学意义( P＜0.001,P=0.001,P=0.013),选取多重耐药株AbR3和AbR11检测外排泵AdeABC调控基因adeRS序列出现氨基酸替代及缺失,而外排泵AdeFGH调控基因adeL序列无基因突变.结论 鲍曼不动杆菌临床株外排泵AdeABC、AbeM、MdtL的表达可能与耐药性有关.     

亚胺培南耐药鲍曼不动杆菌16S rRNA甲基化酶基因检测及流行菌株分析

目的 研究我国多中心亚胺培南耐药的鲍曼不动杆菌的耐药性、16S rRNA甲基化酶的阳性率及分子流行病学特征.方法 收集2004年11月-2005年11月国内6省市19家医院临床分离的342株亚胺培南耐药的鲍曼不动杆菌.采用琼脂稀释法和E test法对18种抗菌药物测定分离株的最低抑菌浓度(MIC)值;脉冲场凝胶电泳(PFGE)分析菌株的同源性;PCR法筛选4种16S rRNA甲基化酶基因armA、rmtA、rmtB、rmtC,克隆测序明确基因型;接合试验、质粒抽提、电转化以及Southern blot确定甲基化酶耐药基因定位.结果 所有菌株均为多重耐药株,其中对阿米卡星、庆大霉素、妥布霉素、异帕米星、奈替米星耐药率分别为92.6%、98.6%、87.4%、90.9%和92.4%.PCR扩增、测序证实221株鲍曼不动杆菌检出甲基化酶armA基因;另3种甲基化酶基因rmtA、rmtB、rmtC均阴性.在上述342株鲍曼不动杆菌临床分离株中,298株可归类为6个流行克隆,44株为散发株.3个主要克隆(A、B、C)在全国广泛播散,分别在国内6家、3家、11家医院内流行.接合试验、质粒抽提、电转化及Southern blot表明armA编码基因存在于染色体上.结论 亚胺培南耐药鲍曼不动杆菌的表型均为多重耐药.介导氨基糖苷类抗生素高度耐药的16S rRNA甲基化酶基因armA在鲍曼不动杆菌中广泛存在,其主要传播方式为克隆播散,这必将引起临床的高度关注.     

不同抗菌药物组合对多重耐药鲍曼不动杆菌的作用研究

目的 评价18组抗菌药物组合对临床分离的多重耐药鲍曼不动杆菌( MDRAB)的体外抗菌效应.方法 收集2009年10月-2010年5月首都医科大学附属北京友谊医院临床检验中心细菌室分离的非重复鲍曼不动杆菌,肉汤微量稀释法测定抗菌药物单药MIC,棋盘肉汤微量稀释法测定联合用药的部分抑菌浓度( FIC)值.根据FIC值判别药物组合的作用类型.对实验菌株,同一药物组合表现矛盾作用的,用PCR扩增其外排泵基因.结果 体外联合作用中利福平+多黏菌素B、亚胺培南+庆大霉素、头孢吡肟+左氧氟沙星协同作用比例大,分别达到68.1％、45.5％、40.9％,米诺环素+利福平、氨苄西林/舒巴坦+妥布霉素、头孢他啶+环丙沙星具有较高的相加作用,分别为81.8％、68.2％、68.2％.有些组合对实验菌株出现协同和拮抗的矛盾作用.选择协同作用的No.19和拮抗作用的No.21、No.26进行耐药基因扩增,基因型表现不同,其中No.19扩增adeS( -),No.21和No.26扩增adeS(+).结论 18种药物组合里利福平+多黏菌素B存在较高的协同作用,在严重MDRAB感染情况下可以考虑应用该组合.亚胺培南+庆大霉素、头孢吡肟+左氧氟沙星也具有较高的体外协同作用,但是在部分菌株的试验中存在拮抗作用,可能是由于菌株存在adeS基因,某些抗菌药物的应用会激活adeS,使外排泵表达或者过量表达,反而使进入细菌细胞内的药物被泵出,表现为拮抗作用.     

亚胺培南耐药鲍曼不动杆菌同源性分析及其耐药机制的研究

鲍曼不动杆菌(Acinetobacter baumannii)是导致院内感染的重要条件性致病菌,其分离率仅次于铜绿假单胞菌.研究表明亚胺培南是治疗鲍曼不动杆菌感染的有效药物,而一旦出现亚胺培南耐药也就意味着对绝大多数常用抗菌药物耐药.近年来我院鲍曼不动杆菌对亚胺培南耐药性逐渐上升[1],本研究拟从菌株同源性分析着手,在了解菌株分子流行病学特征的同时联合检测几种β-内酰胺酶编码基因,以明确本地区菌株对亚胺培南的耐药特性.     

多重耐药鲍曼不动杆菌的耐药分子机制及质粒谱分析

目的了解我院临床分离的66株多重耐药鲍曼不动杆菌（MDRAB）的耐药性和整合子（qacE△1-sull）、转座子（tnpU）存在状况,并对菌株质粒谱进行分析。方法采用VITEK-2全自动细菌鉴定仪检测鲍曼不动杆菌对18种抗生素的药敏结果,并对该细菌进行总DNA的提取。用聚合酶链反应（PCR）检测qacE△1-sull及tnpU,提取质粒进行同源性分析。结果 66株鲍曼不动杆菌中整合子qacE△1-sull基因阳性率为31.8%,转座子tnpU基因阳性率为30.3%。携带遗传标记的菌株耐药率高,特别是对头孢曲松、氨苄西林、头孢替坦、头孢唑啉、呋喃妥因的耐药率已接近或达到100%,而对丁胺卡那霉素和头孢哌酮/舒巴坦的耐药率最低,分别为5%和20%;有19株对亚胺培南耐药,其中整合子阳性率63.2%,转座子阳性率36.8%。检出质粒的46株（70%）临床分离菌出现1～3条大质粒带,大小在1～20kb间,其中出现1条带的有33株、2条带8株、3条带5株,有12株菌提取到大小相同的质粒。结论多重耐药鲍曼不动杆菌耐亚胺培南的耐药现象严重;整合子、转座子遗传标记的携带率高,可能是鲍曼不动杆菌多重耐药的主要原因。     

鲍曼不动杆菌临床分离株表型、基因型和耐药基因的对比研究

目的 对比研究鲍曼不动杆菌临床分离株基因型和编码耐药基因的差异,并分析其与临床多重耐药性的关系.方法 随机收集中南大学湘雅二医院2008年9月至2009年9月分离的77株鲍曼不动杆菌,采用WHO推荐的K-B法对鲍曼不动杆菌进行临床常见15种抗生素药物敏感试验,并对药敏谱进行分析.用随机扩增多态性DNA法(RAPD)技术进行基因分型.并利用PCR对β-内酰胺酶基因TEM-1、IMP、OXA-23、OXA-24、AmpC和氨基糖苷类修饰酶基因aac(3)-Ⅰ、aac(6')-Ⅰ、ant(3")-Ⅰ和16S rRNA甲基化基因armA、rmtA、rmtB进行扩增及序列分析.对比分析鲍曼不动杆菌耐药基因的携带情况,以及与基因型和耐药性的关系.结果 77株鲍曼不动杆菌中敏感菌株有31株,对5种或5种以上抗生素耐药的多重耐药菌株46株,内含全耐药菌株10株.RAPD技术将其分为17型,为A-G型,多重耐药株中E型为优势克隆株(17株),在重症监护病房(ICU)中流行最广,占47.1%(8/17).敏感株中各型散在分布.PCR扩增结果显示,多重耐药株和敏感株携带TEM-1、IMP、OXA-23、OXA-24、AmpC、aac(3)-Ⅰ、aac(6')-Ⅰ、ant(3")-Ⅰ和armA耐药基因的比率分别为95.7%、39.1%、84.8%、54.3%、87.0%、89.1%、84.8%、45.7%、63.0%和58.1%、9.7%、32.3%、48.4%、48.4%、29.0%、45.2%、12.9%、9.7%,未发现rmtA和rmtB基因阳性菌株.经x2检验,除OXA-24外,其余各耐药基因携带率比较差异有统计学意义(P＜0.05).药敏分析提示携带以上耐药基因的鲍曼不动杆菌菌株的耐药率明显高于未携带该基因的菌株,其中对阿米卡星和庆大霉素耐药的菌株,其氨基糖苷类酶基因均阳性(34.8%),含所测的所有β-内酰胺酶基因的菌株均为全耐药株.结论 与临床分离的敏感鲍曼不动杆菌相比,多重耐药株耐药谱广,耐药率高,其携带β-内酰胺酶基因和氨基糖苷类酶基因种类多,分离率高,且同一克隆的多重耐药株可在病室内和病室间传播.     

泛耐药鲍氏不动杆菌氨基糖苷类耐药相关基因研究

目的 探讨泛耐药鲍氏不动杆菌氨基糖苷类抗菌药物耐药机制。方法 收集2014年湖北省黄石市中心医院住院患者中分离的20株泛耐药鲍氏不动杆菌,用mdfA测序确认菌种,再采用聚合酶链反应法分析16种氨基糖苷类药物获得性耐药相关基因。 结果 20株泛耐药鲍氏不动杆菌共检出4种氨基糖苷类获得性耐药基因,氨基糖苷类修饰酶基因aac(3)-Ⅰ阳性率15.00％;ant(3")-Ⅰ阳性率20.00％;aph3'-Ⅰ阳性率100.00％;16SrRNA甲基化酶未检出;外排泵adeB基因阳性率95.00％。 结论　泛耐药鲍氏不动杆菌中携带的耐药基因和耐药表型相对应,对氨基糖苷类药物耐药与产aac(3)-Ⅰ、ant(3")-Ⅰ、aph3'-Ⅰ修饰酶基因和获得外排泵adeB 2种耐药机制有关。     

多重耐药鲍曼不动杆菌的耐药性与AmpC耐药基因的研究

目的了解我院临床分离的60株多重耐药鲍曼不动杆菌（multi-drug resistant Acinetobater baumannii,MDRAB）的耐药性和AmpC耐药基因的存在状况。方法采用VITEK-2全自动细菌鉴定仪检测鲍曼不动杆菌对18种抗生素的药敏结果,对该细菌进行总DNA的提取,用聚合酶链反应（PCR）检测耐药基因,结合药物敏感试验分析菌株的耐药特征。结果检出结构基因ampC型49株,占81.7%;blaADC基因型50株,占83%;ACT基因型2株;41株菌同时携带blaADC和ampC结构基因,占68%;2株同时携带blaADC、ACT和ampC结构基因;未检测到其它AmpC耐药基因（MOX、CIT、FOX、DHA）。携带AmpC耐药基因的菌株耐药率高,特别是对头孢曲松、氨苄西林、头孢替坦、头孢唑啉、呋喃妥因的耐药率已接近或达到100%,而对于丁胺卡那霉素和头孢哌酮/舒巴坦的耐药率最低,分别为5%和20%。结论多重耐药鲍曼不动杆菌的blaADC耐药基因和ampC结构基因同时携带率高,并且是鲍曼不动杆菌多重耐药的主要原因。     

鲍曼不动杆菌和铜绿假单胞菌临床分离株对碳青霉烯抗生素和头孢他啶的耐药性和金属β内酰胺酶的检测

目的 :了解我院鲍曼不动杆菌和铜绿假单胞菌对碳青霉烯和头孢他啶的耐药性以及与金属 β内酰胺酶的关系。方法 :对 2 0 0 2年 4月～ 2 0 0 3年 1月我院临床分离的 1 0 1株鲍曼不动杆菌以及 2 0 0 3年 2月～ 4月我院临床分离的以MicroScanWalkAway～ 40全自动鉴定药敏仪确定的对亚胺培南和 (或 )对头孢他啶耐药的 69株鲍曼不动杆菌和 2 3株铜绿假单胞菌采用美国国家临床实验室标准委员会 (NCCLS)推荐的琼脂对倍稀释法测定了对亚胺培南、美罗培南和头孢他啶的最低抑菌浓度 (MICs) ,将对亚胺培南耐药和(或 )对头孢他啶高度耐药 (MIC >1 2…     

Pharmacokinetic/pharmacodynamic assessment of the in-vivo efficacy of imipenem alone or in combination with amikacin for the treatment of experimental multiresistant Acinetobacter baumannii pneumonia

A guinea-pig pneumonia model involving imipenem-susceptible and imipenem-resistant strains of Acinetobacter baumannii was developed to assess the in-vitro and in-vivo activities of imipenem, alone or in combination with amikacin, and the pharmacokinetic and pharmacodynamic parameters. Serum levels were measured by bioassay (imipenem) or immunoassay (amikacin), followed by calculation of pharmacokinetic and pharmacodynamic parameters (Cmax, AUC, t1/2, Cmax/MIC, AUC/MIC, and Deltat/MIC). In-vivo efficacy was evaluated by comparing bacterial counts in the lungs of treatment groups with end-of-therapy controls by anova and post-hoc tests. Decreases in the Cmax (13.4%), AUC (13%), t1/2 (25%) and Deltat/MIC (11.8-32.2%) of imipenem were observed when it was administered with amikacin, compared with administration of imipenem alone. Similarly, decreases in the Cmax (34.5%), AUC (11.6%), Cmax/MIC (34.5%) and AUC/MIC (11.7%) of amikacin were observed when it was administered with imipenem. Bacterial counts in lungs were reduced by imipenem (p 0.004) with the imipenem-susceptible strain, and by amikacin (p 0.001) with the imipenem-resistant strain. The combination of imipenem plus amikacin was inferior to imipenem alone with the imipenem-susceptible strain (p 0.01), despite their in-vitro synergy, and was inferior to amikacin alone with the imipenem-resistant strain (p < 0.0001). In summary, combined use of imipenem with amikacin was less efficacious than monotherapy, probably because of a drug-drug interaction that resulted in decreased pharmacokinetic and pharmacodynamic parameters for both antimicrobial agents.     

醋酸钙-鲍曼不动杆菌复合体的精确鉴定与药敏分析

目的精确鉴定醋酸钙-鲍曼不动杆菌复合体菌株;检测菌株对氨基糖苷类抗生素和碳青霉烯类抗生素的敏感性。方法运用自动化分析仪VITEK 2试卡法对临床分离不动杆菌进行菌种鉴定,对鉴定为醋酸钙-鲍曼不动杆菌复合体的菌株进一步经16S rRNA序列分析确证其准确种属。分别用自动化分析仪VITEK 2和微稀释法测定精确鉴定后的醋酸钙-鲍曼不动杆菌复合体菌株对阿米卡星、庆大霉素、妥布霉素、亚胺培南和厄他培南五种抗生素的敏感性,分析药敏实验结果。结果共进行了232株不动杆菌的VITEK 2鉴定,其中195株鉴定为醋酸钙-鲍曼不动杆菌复合体。对195株醋酸钙-鲍曼不动杆菌复合体菌株进一步用16S rRNA序列分析确证其准确种属,结果显示173株为鲍曼不动杆菌,22株为醋酸钙不动杆菌。对173株鲍曼不动杆菌及22株醋酸钙不动杆菌分别用VITEK 2和微稀释法进行阿米卡星、庆大霉素、妥布霉素、亚胺培南和厄他培南五种抗生素的药敏检测。微稀释法药敏结果显示,受试鲍曼不动杆菌对三种氨基糖苷类抗生素均呈现高水平耐药,而对两种碳青霉烯类抗生素敏感度较高;受试醋酸钙不动杆菌对五种抗生素均呈现较高敏感度。与微稀释法药敏检测结果相比,VITEK 2试卡法药敏结果中受试鲍曼不动杆菌和醋酸钙不动杆菌对各抗生素的药敏检测结果均出现了不同程度的误差,鲍曼不动杆菌药敏检测结果中阿米卡星符合率最低,严重错误率高达34.10%;醋酸钙不动杆菌药敏检测结果中厄他培南符合率最低,重大错误率高达40.91%。结论 VITEK 2在不动杆菌种属鉴定中存在局限性,辅以16S rRNA序列分析,方可精确鉴定醋酸钙-鲍曼不动杆菌复合体。鲍曼不动杆菌对氨基糖苷类抗生素耐药现状严重。用VITEK 2进行鲍曼不动杆菌和醋酸钙不动杆菌对氨基糖苷类和碳青霉烯类的药敏测定时存在不同程度的误差,建议辅以微稀释法。     

Detection of carbapenemase-producing Acinetobacter baumannii in a hospital

Acinetobacter baumannii strains resistant to both imipenem (IPM) and ceftazidime (CAZ) were isolated from 1994 through 1996 at Gunma University Hospital. Nine isolates from different inpatients were examined for carbapenem-hydrolyzing activity and for the carbapemase gene bla(IMP) by the PCR method. All nine isolates were carbapenemase-producing strains that hydrolyzed IPM and that harbored bla(IMP). The bla(IMP) gene was transmissible by conjugation to an IPM-susceptible recipient strain of A. baumannii and conferred resistance to IPM, CAZ, cefotaxime (CTX), ampicillin (AMP), and piperacillin (PIP). Either intermediate or high-level resistance to amikacin (AMK) was transferred from two and five strains, respectively, concomitantly with bla(IMP), and gentamicin (GEN) resistance was also transferred in one instance of high-level AMK resistance. Comparative examination of clinical isolates for resistance patterns to nine drugs, IPM, CAZ, CTX, aztreonam, AMP, PIP, AMK, GEN, and norfloxacin, in addition to pulsed-field gel electrophoresis patterns with NotI-digested genomic DNA, confirmed nosocomial transmission of infections involving carbapenemase-producing A. baumannii strains.     

Evaluation of the VITEK 2 system for the identification and susceptibility testing of three species of nonfermenting gram-negative rods frequently isolated from clinical samples

VITEK 2 is a new automatic system for the identification and susceptibility testing of the most clinically important bacteria. In the present study 198 clinical isolates, including Pseudomonas aeruginosa (n = 146), Acinetobacter baumannii (n = 25), and Stenotrophomonas maltophilia (n = 27) were evaluated. Reference susceptibility testing of cefepime, cefotaxime, ceftazidime, ciprofloxacin, gentamicin, imipenem, meropenem, piperacillin, tobramycin, levofloxacin (only for P. aeruginosa), co-trimoxazole (only for S. maltophilia), and ampicillin-sulbactam and tetracycline (only for A. baumannii) was performed by microdilution (NCCLS guidelines). The VITEK 2 system correctly identified 91.6, 100, and 76% of P. aeruginosa, S. maltophilia, and A. baumannii isolates, respectively, within 3 h. The respective percentages of essential agreement (to within 1 twofold dilution) for P. aeruginosa and A. baumannii were 89.0 and 88.0% (cefepime), 91.1 and 100% (cefotaxime), 95.2 and 96.0% (ceftazidime), 98.6 and 100% (ciprofloxacin), 88.4 and 100% (gentamicin), 87.0 and 92.0% (imipenem), 85.0 and 88.0% (meropenem), 84.2 and 96.0% (piperacillin), and 97.3 and 80% (tobramycin). The essential agreement for levofloxacin against P. aeruginosa was 86.3%. The percentages of essential agreement for ampicillin-sulbactam and tetracycline against A. baumannii were 88.0 and 100%, respectively. Very major errors for P. aeruginosa (resistant by the reference method, susceptible with the VITEK 2 system [resistant to susceptible]) were noted for cefepime (0.7%), cefotaxime (0.7%), gentamicin (0.7%), imipenem (1.4%), levofloxacin (2.7%), and piperacillin (2.7%) and, for one strain of A. baumannii, for imipenem. Major errors (susceptible to resistant) were noted only for P. aeruginosa and cefepime (2.0%), ceftazidime (0.7%), and piperacillin (3.4%). Minor errors ranged from 0.0% for piperacillin to 22.6% for cefotaxime against P. aeruginosa and from 0.0% for piperacillin and ciprofloxacin to 20.0% for cefepime against A. baumannii. The VITEK 2 system provided co-trimoxazole MICs only for S. maltophilia; no very major or major errors were obtained for co-trimoxazole against this species. It is concluded that the VITEK 2 system allows the rapid identification of S. maltophilia and most P. aeruginosa and A. baumannii isolates. The VITEK 2 system can perform reliable susceptibility testing of many of the antimicrobial agents used against P. aeruginosa and A. baumannii. It would be desirable if new versions of the VITEK 2 software were able to determine MICs and the corresponding clinical categories of agents active against S. maltophilia.     

In vitro activities of tigecycline, ertapenem, isepamicin, and other antimicrobial agents against clinically isolated organisms in Taiwan

This study evaluated the in vitro activities of tigecycline, ertapenem, isepamicin, and other comparators against 861 bacterial isolates recovered from patients treated in three major teaching hospitals in 2003. MICs to antimicrobial agents were determined by the agar dilution method. High rates of oxacillin resistance (58%) in Staphylococcus aureus (60 isolates), and vancomycin resistance (21%) and quinupristin-dalfopristin non-susceptibility (39%) in Enterococcus faecium (34 isolates) were found. Carbapenems had excellent in vitro activities (>or=98% susceptibility) against the 419 isolates of Enterobacteriaceae, with the MIC(50) and MIC(90) of imipenem, meropenem, and ertapenem being 0.25 and 4 mg/L, 0.03 and 0.12 mg/L, and 0.03 and 0.5 mg/L, respectively. For, Pseudomonas aeruginosa (74 isolates) and Burkholderia cepacia (21 isolates), meropenem (MIC(90), 0.25, 2, and 4 mg/L, respectively) had better in vitro activities than imipenem (MIC(90), 8, 4, and 32 mg/L, respectively) and ertapenem (MIC(90), 0.5, >32, and 32 mg/L, respectively). Isepamicin had a similar activity with amikacin against all Enterobacteriaceae, Pseudomonas aeruginosa, B. cepacia, and Acinetobacter baumannii, except for C. freundii isolates in which isepamicin had an eight-fold activity better than amikacin. Tigecycline had excellent in vitro activities against all isolates tested (MIC(90), 相似文献   

鲍曼不动杆菌对碳青霉烯类抗生素的耐药分析及基因型研究

目的分析20株鲍曼不动杆菌对耐碳青霉烯类抗生素的耐药性及对碳青霉烯酶基因的研究。方法用API鉴定条进行细菌鉴定及K-B法进行药敏试验,用碳青霉烯酶4种基因的特异性引物进行聚合酶链反应（PCR）扩增和基因型的测序分析,并通过网上Genbank进行比对以确定编码酶基因的类型。结果 20株鲍曼不动杆菌对左旋氧氟沙星、丁胺卡那霉素、多粘菌素B的耐药率分别为50%、25%、4%。其它抗生素的耐药率均在90%以上。携带D类碳青霉烯酶OXA-23基因有17株（85%）,携带OXA-51基因有15株（75%）,OXA-24、OXA-58基因引物PCR扩增为阴性,随机各抽取3株OXA-23基因阳性株进行测序后通过在网上Genbank比对发现与OXA-23标准株99%同源,OXA-51基因阳性株与OXA-51标准株98%同源。结论本院耐碳青霉烯类抗生素的鲍曼不动杆菌对多粘菌素B的耐药率最低,其次是丁胺卡那霉素,以携带OXA-23型碳青霉烯酶基因为主,应引起临床高度重视,防止在院内广泛传播。     

Synergic in-vitro activity of imipenem and sulbactam against Acinetobacter baumannii

The interaction between sulbactam and imipenem was evaluated with four clinical isolates of Acinetobacter baumannii, including two isolates resistant to imipenem, one of which produced IMP-1 metallo-beta-lactamase. Two isolates (one of which was imipenem-resistant) were sulbactam-resistant by undefined mechanisms. MICs were determined by standard broth microdilution methods. Time-kill assays with imipenem and sulbactam, alone or in combination at 0.5 x MIC and 1 x MIC, showed a synergic effect in all four isolates of A. baumannii after incubation for 0, 4, 8 and > 24 h at 35 degrees C.