Mu Yun Zhen , Wu Xi Nan , Zhang Ai , Lin Hua , Wu Hui Xin , Xiong Qing . “The Window Effect” of 1800 MHz Electromagnetic Radiation on Oxidative Stress in Skin of SD Rats[J]. Journal of Kunming Medical University, 2018, 39(06): 22-25.
Citation: Ding-ji TAN, Hong-li YIN, Rui ZHU, Xi ZHANG, Xin YU, Yong FEI, Xin LI, Ming DUAN, Liang HE, Hong-ying YANG. Analysis of Vaginal Microecological in Women with Cervical Intraepithelial Neoplasia and Cervical Cancer[J]. Journal of Kunming Medical University, 2021, 42(8): 118-122. doi: 10.12259/j.issn.2095-610X.S20210821

Analysis of Vaginal Microecological in Women with Cervical Intraepithelial Neoplasia and Cervical Cancer

doi: 10.12259/j.issn.2095-610X.S20210821
  • Received Date: 2021-06-11
    Available Online: 2021-08-03
  • Publish Date: 2021-08-04
  •   Objective  To investigate the characteristics of vaginal microecology in patients with cervical intraepithelial neoplasia and cervical cancer, and provide information for the prevention and treatment of cervical diseases.  Methods  From July 2018 to October 2018, patients with cervical intraepithelial neoplasia (n = 65), patients with cervical cancer (n = 51) and healthy control (n = 88) in Yunnan Cancer Hospital were selected. Vaginal swabs were collected and microecological assessment were performed by microscopic examination.  Results  Compared with healthy group, there was a significant difference in the composition of bacterial density in the cervical intraepithelial neoplasia group (P < 0.05), despite there was no significant difference in flora diversity, dominant bacteria, pH and Nugent score (P > 0.05). There were significant differences in flora density, dominant bacteria, pH and Nugent score composition between the cervical cancer group and the healthy group (P < 0.05) and there was no significance in the composition of bacterial diversity (P > 0.05).  Conclusion  Patients with cervical intraepithelial neoplasia and cervical cancer have microecological imbalance, especially in cervical cancer patients. Early detection and restoration of female vaginal microecological imbalance are beneficial for the prevention and treatment of cervical cancer.
  • [1]
    Bray F,J Ferlay,I Soerjomataram,et al. Global cancer statistics 2018:GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries[J]. CA Cancer J Clin,2018,68(6):394-424. doi: 10.3322/caac.21492
    [2]
    Kovachev S M. Cervical cancer and vaginal microbiota changes[J]. Arch Microbiol,2020,202(2):323-327. doi: 10.1007/s00203-019-01747-4
    [3]
    Wang H,Y Ma,R Li,et al. Associations of cervicovaginal lactobacilli with high risk human papillomavirus infection,cervical intraepithelial neoplasia,and cancer:A systematic review and meta-analysis[J]. J Infect Dis,2019,220(8):1243-1254. doi: 10.1093/infdis/jiz325
    [4]
    Norenhag J,J Du,M Olovsson,et al. The vaginal microbiota,human papillomavirus and cervical dysplasia:A systematic review and network meta-analysis[J]. BJOG,2020,127(2):171-180. doi: 10.1111/1471-0528.15854
    [5]
    Chao X P,Sun T T,Wang S,et al. Correlation between the diversity of vaginal microbiota and the risk of high-risk human papillomavirus infection[J]. Int J Gynecol Cancer,2019,29(1):28-34. doi: 10.1136/ijgc-2018-000032
    [6]
    Nugent R P,Krohn M A,Hillier S L. Reliability of diagnosing bacterial vaginosis is improved by a standardized method of gram stain inte rpretation[J]. J Clin Microbiol,1991,29(2):297-301. doi: 10.1128/jcm.29.2.297-301.1991
    [7]
    刘萍. 中国大陆13年宫颈癌临床流行病学大数据评价[J]. 中国实用妇科和产科杂志,2018,34(1):41-45.
    [8]
    Wheeler C M. The natural history of cervical human papillomavirus infections and cervical cancer:Gaps in knowledge and future horizons[J]. Obstet Gynecol Clin North Am,2013,40(2):165-176. doi: 10.1016/j.ogc.2013.02.004
    [9]
    刘洋,卿清,孙春意,等. Beclin-1、LC3-Ⅱ在宫颈病变组织中的表达及意义[J]. 昆明医科大学学报,2019,40(3):24-28. doi: 10.3969/j.issn.1003-4706.2019.03.005
    [10]
    Liang Y,Chen M,Qin L,et al. A meta-analysis of the relationship between vaginal microecology,human papillomavirus infection and cervical intraepithelial neoplasia[J]. Infect Agent Cancer,2019,14(1):1-8. doi: 10.1186/s13027-018-0209-2
    [11]
    Kwasniewski W,Wolun-Cholewa M,Kotarski J,et al. Microbiota dysbiosis is associated with HPV-induced cervical carcinogenesis[J]. Oncol Lett,2018,16(6):7035-7047.
    [12]
    Zheng J J,J H Song,C X Yu,et al. Difference in vaginal microecology,local immunity and HPV infection among childbearing-age women with different degrees of cervical lesions in inner mongolia[J]. BMC Womens Health,2019,19(1):109. doi: 10.1186/s12905-019-0806-2
    [13]
    陈剑,赵恩锋,鲍嫘,等. 宫颈癌癌前病变及宫颈癌患者阴道微生态失调相关因素[J]. 中国微生态学杂志,2020,32(8):942-945.
    [14]
    Jones S E,Versalovic J. Probiotic Lactobacillus reuteri biofilms produce antimicrobial and anti-inflammatory factors[J]. BMC Microbiol,2009,9(1):35. doi: 10.1186/1471-2180-9-35
    [15]
    Wang K D,Xu DJ,Wang B Y,et al. Inhibitory effect of vaginal lactobacillus supernatants on cervical cancer cells[J]. Probiotics Antimicrob Proteins,2018,10(2):236-242. doi: 10.1007/s12602-017-9339-x
    [16]
    Chuah L O,Foo H L,Loh T C,et al. Postbiotic metabolites produced by Lactobacillus plantarum strains exert selective cytotoxicity effects on cancer cells[J]. BMC Complement Altern Med,2019,19(1):114. doi: 10.1186/s12906-019-2528-2
    [17]
    Laniewski P,Barnes D,Goulder A,et al. Linking cervicovaginal immune signatures,HPV and microbiota composition in cervical carcinogenesis in non-hispanic and hispanic women[J]. Sci Rep,2018,8(1):7593. doi: 10.1038/s41598-018-25879-7
    [18]
    Ritu W,Enqi W,Zheng S,et al. Evaluation of the associations between cervical microbiota and HPV infection,clearance,and persistence in cytologically normal women[J]. Cancer Prev Res(Phila),2019,12(1):43-56. doi: 10.1158/1940-6207.CAPR-18-0233
    [19]
    Usyk M,Zolnik C P,Castle P E,et al. Cervicovaginal microbiome and natural history of HPV in a longitudinal study[J]. PLoS Pathog,2020,16(3):e1008376. doi: 10.1371/journal.ppat.1008376
    [20]
    Mitra A,MacIntyre D A,Ntritsos G,et al. The vaginal microbiota associates with the regression of untreated cervical intraepithelial neoplasia 2 lesions[J]. Nature communications,2020,11(1):1999. doi: 10.1038/s41467-020-15856-y
    [21]
    逯彩虹,李保红,李小斌,等. 宫颈癌患者阴道微生物的分布特点[J]. 中国医科大学学报,2011,40(3):267-271.
    [22]
    刘晓霞,何茵芳. 宫颈癌对阴道内环境及常见菌群的影响[J]. 实用癌症杂志,2015,30(8):1135-1138. doi: 10.3969/j.issn.1001-5930.2015.08.009
    [23]
    Laniewski P,Cui H,Roe D J,et al. Features of the cervicovaginal microenvironment drive cancer biomarker signatures in patients across cervical carcinogenesis[J]. Sci Rep,2019,9(1):7333. doi: 10.1038/s41598-019-43849-5
    [24]
    Silva C,Almeida E C,Côbo Ede C,et al. A retrospective study on cervical intraepithelial lesions of low-grade and undetermined significance:Evolution,associated factors and cytohistological correlation[J]. Sao Paulo Med J,2014,132(2):92-96. doi: 10.1590/1516-3180.2014.1322579
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    Created with Highcharts 5.0.7Chart context menuAccess Area Distribution其他: 8.9 %其他: 8.9 %其他: 0.2 %其他: 0.2 %Austell: 0.1 %Austell: 0.1 %Austin: 0.0 %Austin: 0.0 %Baden: 0.1 %Baden: 0.1 %Bruderheim: 0.0 %Bruderheim: 0.0 %China: 4.6 %China: 4.6 %Edinburg: 0.0 %Edinburg: 0.0 %Elizabeth City: 0.0 %Elizabeth City: 0.0 %Fairfield: 0.0 %Fairfield: 0.0 %Falkenstein: 0.0 %Falkenstein: 0.0 %Great Falls: 0.0 %Great Falls: 0.0 %Grove City: 0.1 %Grove City: 0.1 %Gwynn Oak: 0.1 %Gwynn Oak: 0.1 %Hamilton: 0.0 %Hamilton: 0.0 %Jamaica: 0.0 %Jamaica: 0.0 %Lee's Summit: 0.0 %Lee's Summit: 0.0 %Malvern: 0.1 %Malvern: 0.1 %Norman: 0.2 %Norman: 0.2 %Northfield: 0.0 %Northfield: 0.0 %Perth Amboy: 0.1 %Perth Amboy: 0.1 %Reynoldsburg: 0.0 %Reynoldsburg: 0.0 %Rochester: 0.2 %Rochester: 0.2 %San Lorenzo: 0.0 %San Lorenzo: 0.0 %Swainsboro: 0.0 %Swainsboro: 0.0 %Ta'if: 0.0 %Ta'if: 0.0 %Westbury: 0.0 %Westbury: 0.0 %Wharton: 0.0 %Wharton: 0.0 %Wixom: 0.1 %Wixom: 0.1 %[]: 0.1 %[]: 0.1 %上海: 6.5 %上海: 6.5 %九江: 0.0 %九江: 0.0 %休斯敦: 0.6 %休斯敦: 0.6 %休斯顿: 0.0 %休斯顿: 0.0 %伯利恒: 0.0 %伯利恒: 0.0 %保定: 0.0 %保定: 0.0 %六盘水: 0.0 %六盘水: 0.0 %内华达: 0.0 %内华达: 0.0 %剑桥: 0.0 %剑桥: 0.0 %加利福尼亚: 0.0 %加利福尼亚: 0.0 %加利福尼亚州: 0.1 %加利福尼亚州: 0.1 %北京: 15.6 %北京: 15.6 %十堰: 0.0 %十堰: 0.0 %华沙: 0.0 %华沙: 0.0 %南京: 0.0 %南京: 0.0 %台州: 0.0 %台州: 0.0 %吉列: 0.0 %吉列: 0.0 %吉达: 0.0 %吉达: 0.0 %吉隆坡: 0.0 %吉隆坡: 0.0 %呼和浩特: 0.0 %呼和浩特: 0.0 %咸阳: 0.0 %咸阳: 0.0 %哈利法克斯: 0.1 %哈利法克斯: 0.1 %哥伦比亚: 0.1 %哥伦比亚: 0.1 %圣保罗: 0.0 %圣保罗: 0.0 %圣约瑟夫: 0.0 %圣约瑟夫: 0.0 %圣路易斯: 0.0 %圣路易斯: 0.0 %坦帕: 0.0 %坦帕: 0.0 %埃克塞特: 0.1 %埃克塞特: 0.1 %埃德蒙顿: 0.1 %埃德蒙顿: 0.1 %多伦多: 0.0 %多伦多: 0.0 %大连: 0.0 %大连: 0.0 %天津: 0.0 %天津: 0.0 %太原: 0.0 %太原: 0.0 %安康: 0.0 %安康: 0.0 %宜宾: 0.0 %宜宾: 0.0 %宜春: 0.0 %宜春: 0.0 %宣城: 0.0 %宣城: 0.0 %宿州: 0.0 %宿州: 0.0 %密蘇里城: 0.9 %密蘇里城: 0.9 %密西西比州: 0.0 %密西西比州: 0.0 %小石城: 0.0 %小石城: 0.0 %巴吞鲁日: 0.1 %巴吞鲁日: 0.1 %巴黎: 0.0 %巴黎: 0.0 %布劳利: 0.0 %布劳利: 0.0 %布雷登顿: 0.1 %布雷登顿: 0.1 %布鲁克林区: 0.1 %布鲁克林区: 0.1 %常德: 0.0 %常德: 0.0 %广州: 0.0 %广州: 0.0 %庆阳: 0.0 %庆阳: 0.0 %延边: 0.0 %延边: 0.0 %张家口: 0.1 %张家口: 0.1 %徐州: 0.0 %徐州: 0.0 %成都: 0.0 %成都: 0.0 %扬州: 0.0 %扬州: 0.0 %拜仁: 0.1 %拜仁: 0.1 %文图拉: 0.1 %文图拉: 0.1 %无锡: 0.1 %无锡: 0.1 %昆明: 0.4 %昆明: 0.4 %昌吉: 0.0 %昌吉: 0.0 %晋城: 0.0 %晋城: 0.0 %普若佛: 0.0 %普若佛: 0.0 %曲靖: 0.0 %曲靖: 0.0 %杭州: 0.1 %杭州: 0.1 %格拉沃利讷: 0.1 %格拉沃利讷: 0.1 %格里利: 0.0 %格里利: 0.0 %森尼韦尔: 0.1 %森尼韦尔: 0.1 %檀香山: 0.0 %檀香山: 0.0 %武汉: 0.1 %武汉: 0.1 %氹仔: 0.0 %氹仔: 0.0 %汉诺威: 0.1 %汉诺威: 0.1 %法拉盛: 0.0 %法拉盛: 0.0 %洛杉矶: 0.1 %洛杉矶: 0.1 %洛阳: 0.0 %洛阳: 0.0 %深圳: 0.0 %深圳: 0.0 %温州: 0.0 %温州: 0.0 %湖州: 0.0 %湖州: 0.0 %漯河: 0.0 %漯河: 0.0 %瑟普赖斯: 0.0 %瑟普赖斯: 0.0 %石家庄: 0.1 %石家庄: 0.1 %纽瓦克: 0.2 %纽瓦克: 0.2 %纽约: 0.2 %纽约: 0.2 %绍兴: 0.0 %绍兴: 0.0 %艾肯: 0.0 %艾肯: 0.0 %芒廷维尤: 3.4 %芒廷维尤: 3.4 %芒特艾里: 0.0 %芒特艾里: 0.0 %芝加哥: 0.0 %芝加哥: 0.0 %苏州: 0.0 %苏州: 0.0 %莫斯科: 0.1 %莫斯科: 0.1 %萨斯卡通: 0.0 %萨斯卡通: 0.0 %萨默维尔: 0.1 %萨默维尔: 0.1 %蒙克斯科纳: 0.1 %蒙克斯科纳: 0.1 %蒙特利尔: 0.0 %蒙特利尔: 0.0 %西宁: 1.5 %西宁: 1.5 %贝克斯菲尔德: 0.1 %贝克斯菲尔德: 0.1 %贵阳: 0.0 %贵阳: 0.0 %费尔菲尔德: 0.1 %费尔菲尔德: 0.1 %赣州: 0.0 %赣州: 0.0 %运城: 0.1 %运城: 0.1 %郑州: 0.0 %郑州: 0.0 %都伯林: 0.0 %都伯林: 0.0 %铜仁: 0.0 %铜仁: 0.0 %锡拉丘兹: 0.0 %锡拉丘兹: 0.0 %长沙: 0.1 %长沙: 0.1 %长治: 0.1 %长治: 0.1 %阿伦敦: 0.0 %阿伦敦: 0.0 %阿布奎基: 0.1 %阿布奎基: 0.1 %阿灵顿: 0.0 %阿灵顿: 0.0 %青岛: 0.0 %青岛: 0.0 %驻马店: 49.9 %驻马店: 49.9 %麦迪逊: 0.1 %麦迪逊: 0.1 %其他其他AustellAustinBadenBruderheimChinaEdinburgElizabeth CityFairfieldFalkensteinGreat FallsGrove CityGwynn OakHamiltonJamaicaLee's SummitMalvernNormanNorthfieldPerth AmboyReynoldsburgRochesterSan LorenzoSwainsboroTa'ifWestburyWhartonWixom[]上海九江休斯敦休斯顿伯利恒保定六盘水内华达剑桥加利福尼亚加利福尼亚州北京十堰华沙南京台州吉列吉达吉隆坡呼和浩特咸阳哈利法克斯哥伦比亚圣保罗圣约瑟夫圣路易斯坦帕埃克塞特埃德蒙顿多伦多大连天津太原安康宜宾宜春宣城宿州密蘇里城密西西比州小石城巴吞鲁日巴黎布劳利布雷登顿布鲁克林区常德广州庆阳延边张家口徐州成都扬州拜仁文图拉无锡昆明昌吉晋城普若佛曲靖杭州格拉沃利讷格里利森尼韦尔檀香山武汉氹仔汉诺威法拉盛洛杉矶洛阳深圳温州湖州漯河瑟普赖斯石家庄纽瓦克纽约绍兴艾肯芒廷维尤芒特艾里芝加哥苏州莫斯科萨斯卡通萨默维尔蒙克斯科纳蒙特利尔西宁贝克斯菲尔德贵阳费尔菲尔德赣州运城郑州都伯林铜仁锡拉丘兹长沙长治阿伦敦阿布奎基阿灵顿青岛驻马店麦迪逊

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      沈阳化工大学材料科学与工程学院 沈阳 110142

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