高水平氨基糖苷耐药肠球菌的监测

目的了解高水平氨基糖苷耐药(HLAR)肠球菌的分离率,探讨青霉素类或糖肽类与氨基糖苷类药物合用对院内感染肠球菌的协同杀菌作用,为临床治疗肠球菌感染提供参考与指导。方法采用VITEK-AMS仪器对分离自临床标本的101株肠球菌进行氨苄西林、青霉素、万古霉素耐药性和高水平庆大霉素耐药(HLGR)及高水平链霉素耐药(HLSR)测定。结果101株肠球菌中,粪肠球菌、屎肠球菌、鸟肠球菌、母鸡肠球菌和耐久肠球菌菌株分别为71、13、8、7和2株。药敏测试结果显示肠球菌对氨苄西林、青霉素、万古霉素耐药分别为21、34和0株;HLGR和HLSR分别为79株和46株。结论院内感染肠球菌对抗菌药物存在严重耐药性,合理的抗菌药物治疗对高水平氨基糖苷耐药肠球菌感染患者的康复尤为重要。     

Antimicrobial susceptibility patterns of enterococci in intensive care units in Sweden evaluated by different MIC breakpoint systems.

Three hundred and twenty-two (322) clinical isolates were collected from patients admitted to intensive care units (ICUs) at eight Swedish hospitals between December 1996 and December 1998. Of the isolates, 244 (76%) were Enterococcus faecalis, 74 (23%) were Enterococcus faecium and four (1%) were other Enterococcus spp. MICs of ampicillin, imipenem, meropenem, piperacillin/tazobactam, ciprofloxacin, trovafloxacin, clinafloxacin, gentamicin, streptomycin, vancomycin, teicoplanin, quinupristin/dalfopristin, linezolid and evernimicin were determined by Etest. Susceptible and resistant isolates were defined according to the species-related MIC breakpoints of the British Society for Antimicrobial Chemotherapy (BSAC), the National Committee for Clinical Laboratory Standards (NCCLS) and the Swedish Reference Group for Antibiotics (SRGA). Tentative breakpoints were applied for new/experimental antibiotics. Multidrug resistance among enterococci in ICUs is not uncommon in Sweden, particularly among E. faecium, and includes ampicillin resistance and concomitant resistance to fluoroquinolones. Almost 20% of E. faecalis isolates showed high-level resistance to gentamicin and concomitant resistance to fluoroquinolones. Vancomycin-resistant enterococci were only found sporadically. Among the new antimicrobial agents, linezolid and evernimicin showed the best activity against all enterococcal isolates. There was good concordance between the BSAC, NCCLS and SRGA breakpoints in detecting resistance. When applying the SRGA breakpoints for susceptibility, isolates were more frequently interpreted as intermediate. This might indicate earlier detection of emerging resistance using the SRGA breakpoint when the native population is considered susceptible, but with the risk that isolates belonging to the native susceptible population will be incorrectly interpreted as intermediate.     

Prevalence of resistance to ampicillin,gentamicin and vancomycin in Enterococcus faecalis and Enterococcus faecium isolates from clinical specimens and use of antimicrobials in five Nordic hospitals

We determined the species distribution and prevalence of ampicillin resistance, high-level gentamicin resistance (HLGR) and vancomycin resistance among clinical enterococcal isolates from five Nordic laboratories (Bergen, Troms?, Uppsala, Aarhus and Reykjavik). Isolates represented three different groups: (i) all blood culture isolates from 1999; (ii) consecutive in-patient isolates (maximum 40); and (iii) consecutive outpatient isolates (maximum 40) collected during March to May 2000. Antimicrobial use data were collected at the national and hospital level. A high proportion (31.4%) of Enterococcus faecium was detected among blood culture isolates, in contrast to only 4.2% among isolates from outpatients. Ampicillin resistance was not found in Enterococcus faecalis, in contrast to 48.8% in E. faecium isolates. HLGR rates varied considerably between laboratories (1.1-27.6%). Acquired vancomycin resistance was not detected. There were no significant differences in the prevalences of HLGR between in-patient and outpatient isolates at individual hospitals. A cluster of clonally related ampicillin-resistant and HLGR E. faecium isolates was demonstrated in one of the hospitals. The lowest level of hospital antimicrobial use, the lowest proportion of E. faecium and the lowest prevalence of resistance were observed in Reykjavik. The study showed a relatively low level of resistance in enterococci, as compared with most European countries and the USA. However, there were large differences between hospitals with regard to the relative proportion of E. faecium isolates, their susceptibility to ampicillin and gentamicin, as well as the prevalence of HLGR in E. faecalis isolates. This indicates a potential for further improvement of antibiotic policies, and possibly hospital infection control, to maintain the low resistance levels observed in these countries.     

271株肠球菌属细菌的分布和耐药性分析

目的了解内蒙古鄂尔多斯市中心医院临床分离的肠球菌属细菌的分布情况及对各类抗菌药物的耐药性。方法使用VITEK 2 compact全自动细菌检测分析系统对2010年1月至2013年6月从临床标本中分离的271株肠球菌属细菌进行菌种鉴定和药敏试验,并用WHONET5．6软件对结果进行统计分析。结果271株肠球菌属细菌中,屎肠球菌137株（50．6％）,粪肠球菌80株（29．5％）,其他肠球菌54株（19．9％）。肠球菌属细菌主要分离自尿液69株（25．5％）、脓液40株（14．8o,4）、伤口等分泌物34株（12．5％）。粪肠球菌对万古霉素和利奈唑胺的耐药率分别为1．3％和1．5％;未检出呋喃妥因耐药株;对青霉素和氨苄西林的耐药率较低,分别为11．8％和2．6％;对高浓度庆大霉素和高浓度链霉素的耐药率分别为31．0％和22．9％。屎肠球菌的耐药率明显高于粪肠球菌,对万古霉素的耐药率为4．4％,未检出利奈唑胺耐药株,对呋喃妥因的耐药率为19．1％;对高浓度庆大霉素和高浓度链霉素的耐药率分别为44．8％和26．4％;但对四环素和奎奴普丁一达福普汀的耐药率低于粪肠球菌,分别为58．3％和0。结论屎肠球菌对抗菌药物的耐药率较粪肠球菌高;并已出现对万古霉素耐药株;其耐药性存在地区和菌种间差异,临床治疗应根据细菌药敏结果合理选用抗菌药物。     

肠球菌耐药现状调查及抗感染用药探讨

目的了解肠球菌尤其是对万古霉素耐药肠球菌（ＶＲＥ）和庆大霉素高水平耐药（ＨＬＧＲ）肠球菌的耐药状况,指导临床合理用药。方法对北京５家教学医院感染标本中分离出的１６１４株肠球菌,分别进行纸片扩散法药敏试验和β内酰胺酶测试,并以“ＷＨＯＮＥＴ４”软件对试验数据进行分析处理。结果ＶＲＥ和ＨＬＧＲ肠球菌分别占肠球菌感染标本总数的３．４％和５２．６％,产β内酰胺酶的肠球菌占５．８％;对常用抗生素的耐药率,屎肠球菌明显高于粪肠球菌,ＨＬＧＲ株明显高于低耐株;万古霉素和高浓度庆大霉素多重耐药株检出率为０．９％。结论肠球菌对临床常用的８种抗生素以万古霉素最敏感。对不同特征肠球菌感染应采取不同的治疗方案。     

Antimicrobial Susceptibility Patterns of Enterococci Causing Infections in Europe

In vitro susceptibilities of 4,208 enterococci (83% Enterococcus faecalis isolates, 13.6% Enterococcus faecium isolates, and 3.4% isolates of other species) from patients in 27 European countries towards 16 antibiotics were determined. High-level resistance to gentamicin varied by country (range, 1 to 49%; mean, 22.6% +/- 12. 3%) and per species (19.7% E. faecalis isolates, 13.6% E. faecium isolates, 3.4% by other species). Vancomycin resistance was detected in 0.06% E. faecalis, 3.8% E. faecium, and 19.1% isolates of other species. All enterococci were susceptible to LY 333328 and everninomicin, and 25% of E. faecalis isolates and 85% of other enterococci were susceptible to quinupristin-dalfopristin. The MIC of moxifloxacin and trovafloxacin for ciprofloxacin-susceptible E. faecalis at which 90% of the isolates were inhibited was 0.25 to 0.5 microg/ml.     

儿童患者中肠球菌属临床分离株耐药特征分析

目的了解儿童患者临床分离肠球菌属的耐药特征，指导临床合理用药。方法测定11种抗菌药物对158株肠球菌的MIC，Nithocefin纸片法检测B内酰胺酶，数据用WHONET5．3软件分析处理。结果158株儿童临床分离肠球菌中，粪肠球菌、屎肠球菌、坚韧肠球菌、鸟肠球菌和海氏肠球菌分别占56．3％、39．9％、1．3％、1．3％和1．3％；屎肠球菌对氨苄西林、阿莫西林-克拉维酸和环丙沙星的耐药率分别为96．8％，95，2％和84．1％，粪肠球菌对上述3种抗菌药的耐药率分别为23．6％，18％和49，4％，屎肠球菌的耐药率明显高于粪肠球菌（P〈20，001）；粪肠球菌出现2株万古霉素MIC为8mg／L的耐药菌，粪肠球菌和屎肠球菌对替考拉宁全部敏感。儿童患者中多重耐药肠球菌属菌株占88．6％。结论儿童患者肠球菌属的耐药状况十分严重，尤其屎肠球菌对B内酰胺类、氨基糖苷类和氟喹诺酮类抗菌药耐药率很高。     

2007-2012年浙江萧山医院尿路感染患者的肠球菌分布及耐药性分析

目的 调查从尿路感染患者分离的肠球菌的菌种、临床分布及耐药性,为临床合理选用抗生素提供依据。方法 尿培养采用经典型浸片Uricult,ATB-Expression细菌分析系统进行鉴定和药敏试验;所有资料采用Whonet 5.6软件进行回顾性分析。结果 分离肠球菌238株,主要为粪肠球菌122株（51.3%）和屎肠球菌95株（39.9%）;菌株主要来源列前2位的是内科（38.2%）和泌尿外科（21.0%）;耐药率较高的是红霉素（86.5%）、利福平（75.7%）和四环素（66.4%）;较低的是呋喃妥因（19.7%）、万古霉素（9.6%）和利奈唑胺（0.0%）;粪肠球菌对利福平、红霉素、奎奴普丁/达福普汀和四环素的耐药率较高,均76.5%,万古霉素耐药率0.9%;屎肠球菌对氨苄西林等8种药物耐药率75.8%,万古霉素耐药率4.3%。粪肠球菌对所测试抗生素耐药率仅有四环素、奎奴普丁/达福普汀高于屎肠球菌,其余低于屎肠球菌;利福平、万古霉素和利奈唑胺耐药率在二者间差异无统计学意义。2007年与2012年相比,青霉素、氨苄西林等药物耐药率上升,而环丙沙星、四环素等下降。结论 肠球菌是引起尿路感染的重要病原菌,以粪肠球菌和屎肠球菌为主,不同种类肠球菌耐药率差别较大,加强细菌培养和定期分析其耐药性,有助于提高临床治愈率及合理用药水平。     

Comparison of high-level gentamicin-resistant Enterococcus faecium isolates from different continents.

Eight clinical isolates of Enterococcus faecium highly resistant to gentamicin (MIC, > 1,000 mg/liter) from patients in six hospitals on three continents were investigated for evidence of spread of either a clone of high-level gentamicin-resistant (HLGR) E. faecium or wide dissemination of a gentamicin resistance (Gmr) plasmid. A combination of ribotypes, plasmid profiles, and extended antimicrobial susceptibilities enabled us to distinguish all but two of the isolates and did not suggest clonal dissemination of a single strain. Two isolates from hospitals situated close together appeared identical by these methods. All of the isolates carried Gmr plasmids which appeared to be closely related following digestion with restriction endonucleases. Cross-hybridization studies confirmed extensive DNA homology between these plasmids. The fragments of these plasmids which hybridized with a probe specific for the aac6'aph2" resistance gene did not resemble those seen in the Gmr transposon Tn5281, which was characterized previously in E. faecalis HH22. This study suggests that there has been widespread dissemination of a single Gmr plasmid and its derivatives amongst isolates of HLGR E. faecium, although a Gmr plasmid from an HLGR E. faecium isolated in the United States showed little homology with the other Gmr plasmids studied.     

儿童肠球菌多重耐药与Ⅰ类整合子的检测

目的了解儿童临床分离肠球菌的耐药特征及其多重耐药与Ⅰ类整合子的相互关系。方法采用琼脂稀释法测定常用抗菌药物对152株肠球菌的最低抑菌浓度（MIC）,用聚合酶链反应（PCR）检测肠球菌Ⅰ类整合子和Ⅰ类整合酶基因。结果屎肠球菌对氨苄西林、阿莫西林-克拉维酸、环丙沙星的耐药率分别为96．8％、95．2％和84．1％,粪肠球菌对上述3种抗菌药物的耐药率分别为23．6％、18．0％和49．4％,屎肠球菌的耐药率明显高于粪肠球菌（P〈0．001）;粪肠球菌中有2株对万古霉素的MIC为8μg/mL,粪肠球菌和屎肠球菌对替考拉宁均敏感。儿童多重耐药肠球菌发生率高达93．7％。屎肠球菌耐药模式以耐氨苄西林、红霉素、环丙沙星、利福平、四环素、高水平庆大霉素6种抗菌药物为主,占屎肠球菌的59％,粪肠球菌以耐四环素、红霉素、利福平、氯霉素、高水平庆大霉素5种抗菌药物为主,占粪肠球菌的26％。全部152株肠球菌未检测到Ⅰ类整合子,仅有5株检测到Ⅰ类整合酶基因。结论儿童肠球菌多重耐药十分严重,儿童肠球菌多重耐药与Ⅰ类整合子和Ⅰ类整合酶基因尚无明显关系。     

氨苄西林预报粪肠球菌和屎肠球菌亚胺培南敏感性的可行性研究

目的 评价氨苄西林预报粪肠球菌和屎肠球菌亚胺培南敏感性的可行性。方法 收集23家医院的127株粪肠球菌和124株屎肠球菌非重复临床分离株。采用微量肉汤稀释法和纸片扩散法测定粪肠球菌和屎肠球菌对青霉素、氨苄西林、亚胺培南的敏感性。结果 纸片扩散法青霉素和氨苄西林均敏感或均耐药的粪肠球菌,微量肉汤稀释法氨苄西林-亚胺培南的分类一致率（CA）均为100.0%,未出现非常重大误差（VME）和重大误差（ME）;纸片扩散法青霉素和氨苄西林均耐药的粪肠球菌,微量肉汤稀释法氨苄西林-亚胺培南的CA为77.8%,ME占22.2%;青霉素耐药、氨苄西林敏感的粪肠球菌,微量肉汤稀释法氨苄西林-亚胺培南的CA为57.1%,纸片扩散法的CA为81.8%。结论 氨苄西林预报粪肠球菌和屎肠球菌亚胺培南敏感性的可靠性优于青霉素,但氨苄西林的敏感性不能用于预报青霉素耐药、氨苄西林敏感表型粪肠球菌和屎肠球菌的亚胺培南敏感性;青霉素敏感可预报粪肠球菌和屎肠球菌对氨苄西林敏感。     

Comparison of antimicrobial resistance phenotypes and resistance genes in Enterococcus faecalis and Enterococcus faecium from humans in the community, broilers, and pigs in Denmark

Enterococcus faecalis and E. faecium isolated from humans in the community (98 and 65 isolates), broilers (126 and 122), and pigs (102 and 88) during 1998 were tested for susceptibility to 12 different antimicrobial agents and for the presence of selected genes encoding resistance using PCR. Furthermore, the presence of vancomycin resistant enterococci was examined in 38 human stool samples using selective enrichment. Widespread resistance to chloramphenicol, macrolides, kanamycin, streptomycin, and tetracycline was found among isolates from all three sources. All E. faecium isolates from humans and pigs were susceptible to avilamycin, whereas 35% of isolates from broilers were resistant. All E. faecium isolates from humans were susceptible to vancomycin, whereas 10% and 17% of isolates from broilers and pigs, respectively, were resistant. A vancomycin resistant E. faecium isolate was found in one of the 38 human fecal samples examined using selective enrichment. All vancomycin resistant isolates contained the vanA gene, all chloramphenicol resistant isolates the cat(pIP501) gene, and all five gentamicin resistant isolates the aac6-aph2 gene. Sixty-one (85%) of 72 erythromycin resistant E. faecalis examined and 57 (90%) of 63 erythromycin resistant E. faecium isolates examined contained ermB. Forty (91%) of the kanamycin resistant E. faecalis and 18 (72%) of the kanamycin resistant E. faecium isolates contained aphA3. The tet(M) gene was found in 95% of the tetracycline resistant E. faecalis and E. faecium isolates of human and animal origin, examined. tet(K) was not observed, whereas tet(L) was detected in 17% of tetracycline resistant E. faecalis isolates and in 16% of the E. faecium isolates. tet(O) was not detected in any of the isolates from pigs, but was observed in 38% of E. faecalis isolates from broilers, in two E. faecalis isolates from humans and in three E. faecium isolates from broilers. tet(S) was not detected among isolates from animals, but was observed in 31% of E. faecalis and one E. faecium isolate from humans. This study showed a frequent occurrence of antimicrobial resistance and the presence of selected resistance genes in E. faecalis and E. faecium isolated from humans, broilers and pigs. Differences in the occurrence of resistance and tetracycline resistance genes were observed among isolates from the different sources. However, similar resistance patterns and resistance genes were detected frequently indicating that transmission of resistant enterococci or resistance genes takes place between humans, broilers, and pigs.     

906株肠球菌属细菌的耐药性分析

目的：了解本地肠球菌属细菌的耐药性变化．为临床经验用药提供参考。方法：对1998～2003年临床分离之肠球菌属细菌进行耐药趋势分析。结果：906株肠球菌属细菌以粪肠球菌和屎肠球菌为主．占87．86％,高浓度庆大霉素耐药(HLGR)肠球菌分离率为61．41％．万古霉素耐药肠球菌(VRE)分离率为0．44％,对青霉素、氨苄西林、环丙沙星的耐药率呈逐年增加趋势;粪肠球菌对青霉素的耐药率为14．07％,而屎肠球菌对青霉素耐药率达83．33％．对相同抗生素的耐药率屎肠球菌明显高于粪肠球菌。结论：肠球菌对临床常用抗生素以万古毒素最敏感,但青霉素类药物仍不失为治疗粪肠球菌的首选：对于屎肠球菌、HLGR、VRE等感染的治疗,应全面考虑肠球菌对不同抗生素的耐药水平,采取联合用药;而实验室对于肠球菌属的正确鉴定、分型、耐药监测以及临床治疗肠球菌感染中有效控制抗生素疗程,缩短平均住院日也是控制肠球菌耐药传播的有效手段之一。     

Species identification and antibiotic susceptibility testing of enterococci isolated from hospitalized patients.

A total of 236 enterococci from hospitalized patients were identified to the species level, and their susceptibilities to 11 antibiotics were determined. Overall, 195 (82.6%) and 38 (16.1%) isolates were identified as Enterococcus faecalis and E. faecium, respectively, but the species distribution as determined from blood culture isolates differed markedly. A total of 27 (63.2%) E. faecium isolates, but no E. faecalis strains, were ampicillin resistant (MIC, greater than 8 micrograms/ml). High-level gentamicin resistance (MIC, greater than 500 micrograms/ml) was found in 8.2% of E. faecalis isolates but was not seen in other species.     

铜陵市部分医院细菌耐药性监测与分析

目的了解安徽省铜陵市临床分离菌株耐药状况。方法2007年1～12月铜陵市临床分离菌株用Kirby-Bauer法进行药敏试验。结果1375株细菌中,革兰阳性菌399株,占29．0％;革兰阴性菌976株,占71．0％。耐甲氧西林金黄色葡萄球菌（MRSA）和耐甲氧西林凝固酶阴性葡萄球菌（MRCNS）分别占金黄色葡萄球菌和凝固酶阴性葡萄球菌（CNS）的18．4％和70．0％;MRSA和MRCNS对庆大霉素、环丙沙星、克林霉素和红霉素等均高度耐药,对利福平、氯霉素和呋喃妥因的耐药率均较低,未见耐万古霉素葡萄球菌。粪肠球菌对青霉素、氨苄西林、呋喃妥因、磷霉素和氯霉素的耐药率较低,未见耐万古霉素和替考拉宁粪肠球菌;屎肠球菌对磷霉素和氯霉素耐药率较低,发现2株耐万古霉素屎肠球菌。大肠埃希菌和克雷伯菌属中产超广谱β-内酰胺酶（ESBLs）株分别占49．3％和35．9％,产ESBLs株除对亚胺培南和美罗培南敏感外,对其他20种抗生素的耐药率均较不产ESBLs株高。非发酵菌对碳青霉烯类、头孢哌酮／舒巴坦、哌拉西林／三唑巴坦、头孢他啶、头孢吡肟、阿米卡星、环丙沙星等耐药率较低。结论革兰阳性菌对糖肽类抗生素耐药率低;革兰阴性菌对碳青霉烯类、头孢哌酮／舒巴坦、哌拉西林／三唑巴坦等耐药率低。加强细菌耐药性监测对合理使用抗生素、减少耐药菌株的产生和流行有重要临床指导价值。     

72株D群肠球菌对19种抗生素的耐药性

目的了解本院临床D群肠球菌和高耐肠球菌的检出率及其耐药性。方法菌株鉴定采用法国梅里埃公司API系列产品,药敏试验采用K—B纸片扩散法。结果共检出72株D群肠球菌,其中尿标本分离48株,痰标本8株,腹腔渗出物10株,血标本4株,关节液2株。19种抗生素药敏试验结果显示,万古霉素和替考拉宁无一耐药,其次为呋喃坦丁（2．0％）,氯霉素（29．6％）,肠球菌高水平庆大霉素耐药率为56．0％,肠球菌高水平链霉素耐药率为65．0％。其余耐药率均大于50．0％。在试验中,笔者发现粪肠球菌比屎肠球菌的耐药率平均水平低。结论D群肠球菌的耐药率较高,是一种重要的院内感染菌,应长期进行耐药监控。     

424株临床分离肠球菌属细菌的耐药性变异

目的探讨肠球菌属临床分离情况与耐药变迁,为指导临床合理用药,控制感染提供依据。方法对广东省东莞中山大学附属东华医院2007--2009年临床送检标本进行常规微生物培养、鉴定和药敏试验,并用WHONET5．4软件统计分析这3年间肠球菌临床分离株在各标本、科室中的分布与耐药性的变迁情况。结果2007--2009年临床分离出肠球菌属细菌424株,其中粪肠球菌338株,占79．7％,屎肠球菌75株,占17．7%,鸟肠球菌11株,占2．6％;肠球菌属在各标本中的分布以尿液为主,占50．2％,其次为伤口分泌物（14．4％）、血液（12．5％）。3年来肠球菌属的菌种和耐药均发生了较大变化,粪肠球菌所占比率每年保持在80％左右,屎肠球菌呈逐年上升趋势,从2007年的13．9%上升至2009年的20．9％,而鸟肠球菌则逐年下降,从4．7％降至0．6％。粪肠球菌对红霉素和四环素的耐药率最高,分别为79．4％～85．7％和84．1％～87．4%,屎肠球菌对氨苄西林、青霉素以及呋喃妥因的耐药率明显高于粪肠球菌,对红霉素、左氧氟沙星、青霉素的耐药率高达80％以上,对呋喃妥因、高浓度的庆大霉素、环丙沙星、四环素、氨苄西林等抗菌药物的耐药率也接近或超过50％。2007年发现1株屎肠球菌对万古霉素耐药。结论肠球菌属耐药性较为严重,不同菌种耐药性有所差异。临床抗感染治疗应以分离菌株的体外抗菌药物敏感性为依据,合理选用抗菌药物,以提高疗效。     

2010年中国CHINET肠球菌属细菌耐药性监测

目的了解2010年中国主要地区临床分离肠球菌属细菌对各类抗菌药物的耐药性。方法国内主要地区14所教学医院(12所综合性医院,2所儿童医院)按统一方案、采用统一的材料、方法(K-B法)和判断标准(CLSI 2010年版)进行肠球菌属细菌的耐药性监测。结果共分离到4 046株非重复肠球菌属细菌,最常见菌种为粪肠球菌1 829株(45.2%)、屎肠球菌1 817株(44.9%)、鹑鸡肠球菌78株(1.9%)、鸟肠球菌54株(1.3%)、铅黄肠球菌49株(1.2%)。肠球菌属对利奈唑胺、万古霉素、替考拉宁仍极敏感,耐药率<4%,万古霉素耐药粪肠球菌和屎肠球菌检出率分别为0.6%、3.6%。粪肠球菌对呋喃妥因、磷霉素和氨苄西林耐药率较低,分别为3.2%、5.7%和11.3%,对高浓度庆大霉素耐药率为44.0%;屎肠球菌耐药性明显高于粪肠球菌,对氨苄西林耐药率接近90%,对高浓度庆大霉素耐药率接近70%,对氯霉素耐药率仅为7.3%,儿童屎肠球菌分离株对磷霉素、呋喃妥因耐药率<10%。不同医院分离的肠球菌属细菌对抗菌药物的耐药率有一定差异。结论屎肠球菌的分离率有增加趋势,肠球菌属细菌对利奈唑胺、万古霉素、替考拉宁依然保持极高的敏感性。     

肠球菌医院感染分布及耐药监测

目的 了解肠球菌院内感染分布及耐药特性。方法 英国SENSITIRE(先德)荧光快速微生物鉴定／药敏分析仪进行细菌鉴定及药敏试验,用纸片扩散法进行庆大霉素高水平耐药筛选试验。结果 肠球菌感染以泌尿道感染为主,占50.5％。肠球菌表现多重耐药,不同菌种对氨苄西林、利福平耐药率有明显差异,对常用抗生素的耐药率,屎肠球菌明显高于粪肠球菌,HLGR株明显高于低耐株。结论 肠球菌对抗茵药物耐药谱有明显差异,合理选择抗生素,对控制院内感染有重大意义。     

2006年中国七家教学医院革兰阳性球菌耐药性研究

目的 调查2006年我国革兰阳性球菌的耐药性.方法 收集2006年6-12月全国7家教学医院分离的非重复革兰阳件菌674株,以琼脂稀释法测定抗菌药物的MIC.结果 100株肺炎链球菌中,青霉素耐药的肺炎链球菌(PRSP)和青霉素中介的肺炎链球菌(PISP)分别占1%和19%.所有肺炎链球菌均对万古霉素和替考拉宁高度敏感;对左氧氟沙星和莫西沙星的敏感率分别为97%和98%;对阿莫西林/克拉维酸、头孢曲松和氯霉素的敏感率依次为96%、87%和73%;青霉素敏感的肺炎链球菌(PSSP)全部对头孢丙烯和头孢克罗的敏感率分别为62.0%和55.7%,而PISP和PRSP对这2种抗菌药物均耐药;所有肺炎链球菌埘大环内酯类、甲氧苄啶/磺胺甲恶(噁)唑(TMPCo)和四环素的敏感率均小于35%.金黄色葡萄球菌和凝固酶阴性葡萄球菌(SCON)中耐甲氧西林菌株分别占48%(33%～84%)和81%(69%～94%).耐甲氧西林金黄色葡萄球菌(MRSA)对TMPCo、氯霉素和利福平敏感率分别为72%、66%和45%;对大环内脂类、氨基糖苷类、四环素和氟喹诺酮类的敏感率低于18%.粪肠球菌和屎肠球菌对高浓度庆大霉素耐药率分别为56%(30%～86%)和80%(50%～100%).未发现对万古霉素和替考拉宁耐药的葡萄球菌和粪肠球菌;但在杭州发现对该2种抗菌药物同时耐药的屎肠球菌.除氯霉素和四环素外,粪肠球菌对其他所测抗菌药物的敏感率均高于屎肠球菌.结论 各地区革兰阳件耐药性有所差异,且对大部分抗菌药物的耐药率较2005年本项目的 监测结果有所升高.替考拉宁和万古霉素对革兰阳性球菌仍保持很高的抗菌活性.