CAJ | 학술논문

目的了解乌鲁木齐地区维吾尔族与汉族新生儿中肺炎克雷伯菌和大肠埃希菌产超广谱β-内酰胺酶(ESBLs)与头孢菌素酶(AmpC酶)的耐药性及基因型分布.方法采用纸片扩散(K-B)法测定299株病原菌对22种抗菌药的耐药率;利用多重PCR技术检测产ESBLs或AmpC酶菌株耐药基因,并用DNA序列分析确认基因亚型;采用数字表法随机抽取产ESBLs的TEM、SHV、CTX-M-1、CTX-M-9组阳性菌株及产AmpC酶的DHA、CIT阳性菌株共148株进行测序.耐药率采用世界耐药监测网Whonet 5.4软件进行统计,数据对比应用医学PEMS 3.1统计软件采用卡方检验进行统计学处理,P＜0.05认为差异有统计学意义.结果在耐药率方面,维吾尔族与汉族新生儿中产ESBLs肺炎克雷伯菌对复方新诺明[80.0%(40/50)和56.0%(28/50),x2=6.6176,P=0.0101]、产ESBLs大肠埃希菌对头孢哌酮+舒巴坦[54.2%(32/59)和94.0%(47/50),x2=21.4512,P=0.0000]、产AmpC酶肺炎克雷伯菌对头孢哌酮+舒巴坦[100.0%(20/20)和72.2%(26/36),x2=6.7633,P=0.0093]和对阿米卡星[65.0%(13/20)和25.0%(9/36),x2=8.6246,P=0.0033]耐药率差异有统计学意义.基因测序结果显示,ESBLs基因型除SHV在大肠埃希菌中维吾尔族新生儿只检出3.4%(2/59)而汉族新生儿未检出外,其他TEM、CTX-M-1、CTX-M-9组基因检出率均在38.0%(19/50)以上;其中TEM、CTX-M-1组基因分别为单一的TEM-1型和CTX-M-15型,SHV、CTX-M-9组阳性基因分别检出SHV-1、2、11、12、27、61、99和CTX-M-9、14、24、27、65等不同型别基因.肺炎克雷伯菌和大肠埃希菌中检出2种或2种以上ESBLs基因型的菌株占56.7%(42/74)～90.0%(63/70).携带AmpC酶基因的2种菌在2个民族新生儿中基因型都只集中在DHA-1和CMY-44型,其他型未检出.2个民族新生儿间只有产TEM型的ESBLs大肠埃希菌检出率为维吾尔族新生儿高于汉族新生儿[71.2%(42/59)和50.0%(25/50),x2=5.1291,P=0.0235],其余各种耐药基因型检出率差异无统计学意义(x2＜3.7780,P＞0.05).结论 2个民族新生儿间部分菌株耐药率和耐药基因型分布差异有明显统计学意义,而且肺炎克雷伯菌和大肠埃希菌携带多种耐药基因并对β-内酰胺类抗生素呈高耐药性. 目的瞭解烏魯木齊地區維吾爾族與漢族新生兒中肺炎剋雷伯菌和大腸埃希菌產超廣譜β-內酰胺酶(ESBLs)與頭孢菌素酶(AmpC酶)的耐藥性及基因型分佈.方法採用紙片擴散(K-B)法測定299株病原菌對22種抗菌藥的耐藥率;利用多重PCR技術檢測產ESBLs或AmpC酶菌株耐藥基因,併用DNA序列分析確認基因亞型;採用數字錶法隨機抽取產ESBLs的TEM、SHV、CTX-M-1、CTX-M-9組暘性菌株及產AmpC酶的DHA、CIT暘性菌株共148株進行測序.耐藥率採用世界耐藥鑑測網Whonet 5.4軟件進行統計,數據對比應用醫學PEMS 3.1統計軟件採用卡方檢驗進行統計學處理,P＜0.05認為差異有統計學意義.結果在耐藥率方麵,維吾爾族與漢族新生兒中產ESBLs肺炎剋雷伯菌對複方新諾明[80.0%(40/50)和56.0%(28/50),x2=6.6176,P=0.0101]、產ESBLs大腸埃希菌對頭孢哌酮+舒巴坦[54.2%(32/59)和94.0%(47/50),x2=21.4512,P=0.0000]、產AmpC酶肺炎剋雷伯菌對頭孢哌酮+舒巴坦[100.0%(20/20)和72.2%(26/36),x2=6.7633,P=0.0093]和對阿米卡星[65.0%(13/20)和25.0%(9/36),x2=8.6246,P=0.0033]耐藥率差異有統計學意義.基因測序結果顯示,ESBLs基因型除SHV在大腸埃希菌中維吾爾族新生兒隻檢齣3.4%(2/59)而漢族新生兒未檢齣外,其他TEM、CTX-M-1、CTX-M-9組基因檢齣率均在38.0%(19/50)以上;其中TEM、CTX-M-1組基因分彆為單一的TEM-1型和CTX-M-15型,SHV、CTX-M-9組暘性基因分彆檢齣SHV-1、2、11、12、27、61、99和CTX-M-9、14、24、27、65等不同型彆基因.肺炎剋雷伯菌和大腸埃希菌中檢齣2種或2種以上ESBLs基因型的菌株佔56.7%(42/74)～90.0%(63/70).攜帶AmpC酶基因的2種菌在2箇民族新生兒中基因型都隻集中在DHA-1和CMY-44型,其他型未檢齣.2箇民族新生兒間隻有產TEM型的ESBLs大腸埃希菌檢齣率為維吾爾族新生兒高于漢族新生兒[71.2%(42/59)和50.0%(25/50),x2=5.1291,P=0.0235],其餘各種耐藥基因型檢齣率差異無統計學意義(x2＜3.7780,P＞0.05).結論 2箇民族新生兒間部分菌株耐藥率和耐藥基因型分佈差異有明顯統計學意義,而且肺炎剋雷伯菌和大腸埃希菌攜帶多種耐藥基因併對β-內酰胺類抗生素呈高耐藥性.
목적 료해오로목제지구유오이족여한족신생인중폐염극뢰백균화대장애희균산초엄보β-내선알매(ESBLs)여두포균소매(AmpC매)적내약성급기인형분포.방법 채용지편확산(K-B)법측정299주병원균대22충항균약적내약솔;이용다중PCR기술검측산ESBLs혹AmpC매균주내약기인,병용DNA서렬분석학인기인아형;채용수자표법수궤추취산ESBLs적TEM、SHV、CTX-M-1、CTX-M-9조양성균주급산AmpC매적DHA、CIT양성균주공148주진행측서.내약솔채용세계내약감측망Whonet 5.4연건진행통계,수거대비응용의학PEMS 3.1통계연건채용잡방검험진행통계학처리,P＜0.05인위차이유통계학의의.결과 재내약솔방면,유오이족여한족신생인중산ESBLs폐염극뢰백균대복방신낙명[80.0%(40/50)화56.0%(28/50),x2=6.6176,P=0.0101]、산ESBLs대장애희균대두포고동+서파탄[54.2%(32/59)화94.0%(47/50),x2=21.4512,P=0.0000]、산AmpC매폐염극뢰백균대두포고동+서파탄[100.0%(20/20)화72.2%(26/36),x2=6.7633,P=0.0093]화대아미잡성[65.0%(13/20)화25.0%(9/36),x2=8.6246,P=0.0033]내약솔차이유통계학의의.기인측서결과현시,ESBLs기인형제SHV재대장애희균중유오이족신생인지검출3.4%(2/59)이한족신생인미검출외,기타TEM、CTX-M-1、CTX-M-9조기인검출솔균재38.0%(19/50)이상;기중TEM、CTX-M-1조기인분별위단일적TEM-1형화CTX-M-15형,SHV、CTX-M-9조양성기인분별검출SHV-1、2、11、12、27、61、99화CTX-M-9、14、24、27、65등불동형별기인.폐염극뢰백균화대장애희균중검출2충혹2충이상ESBLs기인형적균주점56.7%(42/74)～90.0%(63/70).휴대AmpC매기인적2충균재2개민족신생인중기인형도지집중재DHA-1화CMY-44형,기타형미검출.2개민족신생인간지유산TEM형적ESBLs대장애희균검출솔위유오이족신생인고우한족신생인[71.2%(42/59)화50.0%(25/50),x2=5.1291,P=0.0235],기여각충내약기인형검출솔차이무통계학의의(x2＜3.7780,P＞0.05).결론 2개민족신생인간부분균주내약솔화내약기인형분포차이유명현통계학의의,이차폐염극뢰백균화대장애희균휴대다충내약기인병대β-내선알류항생소정고내약성.
Objective This study aimed to investigate drug resistance and genotypes of the extended spectrum β-lactamase (ESBLs) and AmpC β-lactamase-producing Escherichia coli and Klebsiella pneumoniae isolated from Uygur and Han newborns in Urumqi. Methods Disk diffusion test (Kirby-Bauer) was used for detecting drug resistance of 299 strains to twenty two kinds of antibiotics. Resistance genes of the ESBLs and AmpC β-lactamase-producing strains were amplified by multiplex PCR and subtypes were confirmed by DNA sequence analysis. Total 148 strains were selected with random number table and sequenced,which included TEM-, SHV-, CTX-M-1-, or CTX-M-9- positive ESBLs-producing strains and DHA-,or CIT- positive AmpC β-lactamase-producing strains. Antibiotic resistant rates were analyzed by Whonet 5.4 and statistic analysis was performed by chi-square ( x2 ) test with PEMS 3. 1. Results The antibiotic resistant rates between Uygur and Han newborns significantly differ in ESBLs-producing Klebsiella pneumoniae to Suffamethoxazolum-Trimethoprimum (80. 0% (40/50) and 56. 0% (28/50) ,x2 = 6. 6176,P = 0. 0101 ) ,in ESBLs-producing Escherichia coli to Sulbactam and Cefopcrazone (54. 2% (32/59) and 94. 0% (47/S0), x2 = 21.4512, P = 0. 0000 ), and in AmpC β-lactamase-producing Klebsiella pneumoniae to Sulbactam and Cefopcrazone ( 100. 0% (20/20) and 72. 2% (26/36) ,x2 =6. 7633 ,P =0. 0093) and to Amikacin (65.0% (13/20) and 25.0% (9/36), X2 = 8.6246, P= 0.0033). Although SHV gene of ESBLs-producing Escherichia coli was detected from Uygur newborns at only 3.4% (2/59) and not detectable from Han newborns, TEM, CTX-M-1, and CTX-M-9 group genes were all detected over 38.0%(19/50). Among the detected strains,the subtypes of TEM and CTX-M-1 were mainly TEM-1 and CTX-M-15,respectively; whereas the subtypes of SHV and CTX-M-9 included SHV-1,2,11,12,27 ,61,99 and CTX-M-9,14,24,27,65, respectively. The strains of Escherichia coli and Klebsiella pneumoniae carrying two or more kinds of ESBLs genotypes were 56. 7% (42/74) -90. 0% (63/70). Two species carrying the AmpC gene in two kinds of newborns were only grouped in the subtypes of DHA-1 and CMY-44 ,and other subtypes were not detected at all. Moreover,TEM-positive ESBLs-producing Escherichia coli were detected from Uygur newborns at the higher rate than that from Han newborns (71.2% (42/59) and 50. 0% (25/50), x2 =5. 1291 ,P= 0. 0235 ), while there was no difference in other genotypes detected between two kinds of newborns ( x2 ＜ 3. 7780, P ＞ 0. 05 ). Conclusion There were significant differences in antibiotic resistance and genotype distribution of Klebsiella pneumoniae and Escherichia coli between two nationality newborns, and these two bacteria detected in this study carried multi-resistance genes and showed high resistant to β-lactamase antibiotics.