Abstract:Objective To explore the application of hypervariable octameric oligonucleotide finger-prints (HOOF-Prints) genotyping on molecular epidemiologic study of Brucellosis in Shijiazhuang. Methods A total of 145 patients with confirmed Brucellosis admitted to the Fifth Hospital of Shijiazhuang from January 2016 to December 2018 were selected, Brucella strains were isolated and cultured. HOOF-Prints genotyping was used for molecular epidemiologic study. Results The most prevalent species of Brucella in Shijiazhuang were B.melitensis and B.abortus. Among them, B.melitensis biover 3 and B.melitensis biover 2 were the main epidemic strains. Conclusion The main epidemic strains of Brucella in Shijiazhuang are B.melitensis biover 3 and B.melitensis biover 2. HOOF-Prints genotyping is an effective method for the molecular epidemiologic study on Brucella.
[1] Kefaloudi C,Mellou K,Dougas G,et al. Human Brucellosis in Greece,2005-2020:A Persistent Public Health Problem [J]. Vector Borne Zoonotic Dis,2022,22(3):163-169.
[2] Wareth G,Dadar M,Ali H,et al. The perspective of antibiotic therapeutic challenges of brucellosis in the Middle East and North African countries:Current situation and therapeutic management [J]. Transbound Emerg Dis,2022. Epub ahead of print.
[3] Sibhat B,Tessema TS,Nile E,et al. Brucellosis in Ethiopia:A comprehensive review of literature from the year 2000-2020 and the way forward [J]. Transbound Emerg Dis,2022. Epub ahead of print.
[4] Jamil T,Khan AU,Saqib M,et al. Animal and Human Brucellosis in Pakistan [J]. Front Public Health,2021,9:660508.
[5] Cavalerie L,Wardeh M,Lebrasseur O,et al. One hundred years of zoonoses research in the Horn of Africa:A scoping review [J]. PLoS Negl Trop Dis,2021,15(7):e0009607.
[6] Abedi AS,Hashempour BF,Alizadeh AM,et al. The prevalence of Brucella spp. in dairy products in the Middle East region:A systematic review and meta-analysis [J]. Acta Trop,2020,202:105241.
[7] 宋利桃,范蒙光,塔娜,等.2018-2020年内蒙古自治区人间布鲁氏菌病流行特征分析[J].中华地方病学杂志,2022,41(1):62-65.
[8] 孙杰.川东北地区布鲁杆菌病的流行病学及临床特点分析[D].南充:川北医学院,2019.
[9] 曹小安.我国西北地区羊布鲁氏菌分子流行病学及抗原表位多肽的筛选[D].北京:中国农业科学院,2018.
[10] 陈志胜,地力夏提·萨里,米亚赛尔·修克来提.2012-2019年伊犁州人间布鲁氏菌病流行特征分析[J].疾病预防控制通报,2022,37(1):43-45.
[11] 张志,高会霞,田岳飏,等.石家庄市布鲁杆菌病流行病学特征及其临床分离株对常用抗菌药物的敏感性分析[J].职业与健康,2021,37(3):411-414.
[12] 董帅兵,姜海,王丽萍.我国布鲁氏菌病监测研究与实践进展[J].中华流行病学杂志,2019,40(7):870-874.
[13] 孟成艳,金嘉琳,阮斐怡,等.上海地区散发布鲁杆菌感染的细菌学及分子鉴定[J].微生物与感染,2006,1(1):32-34,62.
[14] Bricker BJ,Ewalt DR,Halling SM. Brucella ‘HOOF-Prints’:strain typing by multi-locus analysis of variable number tandem repeats(VNTRs)[J]. BMC Microbiol,2003,3:15.
[15] 中华人民共和国卫生部.布鲁氏菌病诊疗指南(试行)[J].传染病信息,2012,25(6):323-324,359.
[16] 吕君,陈思玉,刘亚楠,等.115例布鲁菌病临床特点分析[J].传染病信息,2019,32(3):230-232,245.
[17] 胡凌,张洁,汪雪,等.人间布鲁氏菌病诊断[J].四川畜牧兽医,2021,48(11):43-44.
[18] 宋仕玲,祝捷,曾芙蓉,等.深圳市39例急性期布鲁菌病患者临床特征分析[J].中华地方病学杂志,2019,38(9):739-742.
[19] 欧阳志良,黄添祥,温蕾.布鲁氏菌病实验室检测方法的研究进展[J].畜牧兽医科技信息,2021(9):11-12.
[20] 李雅楠.河北省结核分枝杆菌临床分离株基因分型、表型耐药及耐药相关基因突变特征研究[D].石家庄:河北医科大学,2016.
[21] 李文博,祁腾,曾林子,等.四川省鼠疫耶尔森菌多位点可变数目串联重复序列基因分型及流行病学研究[J].中国地方病防治杂志,2021,36(1):7-10.
[22] 马青,喻欢,刘英,等.2012-2015年贵州省炭疽芽胞杆菌分离鉴定及MLVA分型分析[J].中国人兽共患病学报,2018,34(7):624-628.
[23] 陈宝宝,聂守民,安翠红,等.陕西省布鲁氏菌分离株MLVA分型研究[J].现代预防医学,2022,49(3):522-526.
[24] 韩腾伟,林代华,陈志平,等.2018-2019年福建省人感染布鲁氏菌分离株种型鉴定及分子特征分析[J].中国病原生物学杂志,2021,16(9):1001-1007.
[25] 李文博,周汉洪,闫国栋,等.2015-2019年四川省布鲁氏菌多位点可变数目串联重复序列基因分型研究[J].疾病监测,2021,36(12):1281-1285.
[26] 高芬,陈洪友,屠丽红,等.2007-2020年上海市布鲁氏菌分离株分型方法研究[J].疾病监测,2021,36(7):696-701.
[27] 崔步云,姜海.2005-2016年全国布鲁氏菌病监测数据分析[J].疾病监测,2018,33(3):188-192.