登革热

dēnɡ ɡé rè
  • break-bone fever;dengue
登革热登革热
  1. 东盟来华人员登革热IgG抗体水平调查

    Investigation on Dengue Virus Antibody IgG among the ASEAN Personnels in China

  2. 确诊依据登革热IgM抗体检查。

    Confirmed diagnosis was depended on dengue virus IgM antibody .

  3. LeeTamplin圣布拉斯岛海滩多米尼加共和国的霍乱,加勒比海的登革热,乌克兰的麻疹。

    Cholera in the Dominican Republic . Dengue fever in the Caribbean . Measles in Ukraine .

  4. 检测疑似登革热病人血清5份,登革热IgM、IgG抗体均阳性。

    All 5 serum specimen of suspected Dengue patient are positive for DF-IgM and DF-IgG .

  5. 胶体金免疫色谱测试法与血凝抑制试验检测登革热IgM、IgG抗体的比较

    Comparison of detecting for dengue fever serous IgM and IgG between colloidal gold immunoassay and HI test

  6. 用地高辛配基(Digoxigenin)标记的cDNA探针检测登革热病毒

    Detection of Dengue Virus with Digoxigenin-labelled cDNA Probes

  7. 结论经IFA法检测,浙江省2003~2004年出现了登革热疫情。

    Conclusion The imported Dengue epidemics occurred in Zhejiang in 2003-2004 .

  8. 在成人和原发性登革热感染中,致死性的DHF/登革热休克综合征(DSS)确有发生。

    Fatal DHF / dengue shock syndrome ( DSS ) does occur in adults and in primary dengue infection .

  9. 登革热数学模型及其应用研究(Ⅰ)&兼评Newton的登革热传播模型

    Study on mathematical model of dengue fever and its application ( I )─ With reviewing Newton 's model of dengue fever

  10. RobertEdelman是马里兰大学登革热疫苗研究方面的专家。

    Robert Edelman at the University of Maryland is an expert in dengue vaccine research .

  11. 登革热病毒DEN会通过切割MAVS抑制细胞的凋亡作用。

    The Dengue virus ( DEN ) suppressed cell apoptosis by cleaving MAVS .

  12. 用经C6/36细胞传代的登革热病毒制备抗原,建立了捕捉法ELISA检测特异性IgM抗体用于快速诊断登革热病人。

    A Mac-ELISA for rapid diagnosis of dengue infection was developed . The dengue virus antigen was prepared in C6 / 36 cell line .

  13. 因此,已无法知道他是否可能因合并感染登革热和H5N1禽流感而死亡。

    It will therefore never be known whether he may have died following co-infection with dengue and H5N1 avian influenza .

  14. 应用重氮胶乳凝集试验,检测登革热病人急性期血清标本57份,同时与PCR及病毒分离方法进行比较。

    Diazotized latex agglutination ( DLA ), polymerase chain reaction and C6 / 36 virus isolation assay were adopted to detect dengue virus infection in 57 sera from the patients .

  15. Dong说,这种合成疫苗在保护小鼠不受全部四种登革热病毒感染方面显示出“100%有效”。

    According to Dong , the synthetic vaccine demonstrated " 100 per cent efficacy " in protecting the mice against all four dengue viruses .

  16. 免疫识别结果表明登革热CIC中存在特异性病毒抗原及IgG、IgA、IgM抗体和补体C3组份。

    The existence of specific dengue antigens , IgG , IgA , IgM and C3 in CIC was demonstrated by immunologic recognition .

  17. 核酸杂交和McAb-IFA快速检出鉴定白纹伊蚊体内登革热病毒的研究

    Use of McAB ─ IFA and Nucleic Acid Hybridization for Detecting Dengue Virus in Infected Aedes Aegypti Mosquitoes

  18. 目的了解登革热病人发病后检测登革病毒IgM抗体取血时限。

    Objective To investigate the optimal blood sampling time point of dengue fever patient for the dengue virus IgM antibody examination after onset of symptom .

  19. 血清登革热病毒NEST-PCR检测

    Detection of Dengue Virus From Patients 's Serums by Nest-PCR

  20. 目的:探索登革热(DF)流行和媒介种群的空间分布特征,为DF的防治和监测提供宏观的决策依据。

    AIM : To explore the spatial distribution characteristics of dengue fever prevalence and vector population so as to provide data for macroscopical decision making of surveillance and control .

  21. 1992~1995年,在广州市珠海区和海康市各选择1个既往登革热(简称DF)流行区和非流行区作为DF监测点,并对省内临床疑似DF病人进行监测。

    From 1992 to 1995 , a previous epidemic area and a non-epidemic area both in Guangzhou Haizhu district and Haikang city were selected as the DF surveillance points .

  22. 但是美国南卡罗来纳医科大学的JohnDong和同事开发出了一种技术,可以生产出预防全部四种登革热的安全有效的疫苗。

    But John Dong of the Medical University of South Carolina , United States , and colleagues have developed a method that could lead to a safe and effective vaccine for all four types of the virus .

  23. 结论对疑似登革热及登革出血热病人进行早期诊断,检测IgM抗体以发病第4d后取血为宜。

    Conclusion The optimal blood sampling time for dengue fever and dengue haemorrhage fever patient to perform IgM antibody test might be the 4th day after onset of symptoms .

  24. 蚊子追踪二氧化碳(CO2)气体,因为它们叮咬的动物(在本案例中就是人类)呼出这种气体,蚊子在叮咬过程中传播诸如疟疾和登革热等疾病。

    Mosquitoes follow carbon dioxide ( CO2 ) gas because it is breathed out by animals , on whom they feed & in the case of humans , transmitting diseases such as malaria and dengue in the process .

  25. 对于登革热疫苗行动主任LuizJacinthodaSilva而言,登革热的蔓延令人极为担忧。

    For Luiz Jacintho da Silva , director of the Dengue Vaccine Initiative , the spread of dengue is a matter of the gravest concern .

  26. 采用间接免疫荧光法对疑似病例血清进行登革热抗体检测,用C6/36细胞对急性期病人血清进行病毒分离,以荧光定量RT-PCR方法鉴定。

    IFA were used for detecting the anti-dengue virus antibodies , and the serum samples were collected from the patients in acute stage for dengue virus isolation with C6 / 36 cell and the positive samples were identified by RT-PCR .

  27. 这组科学家在棚内喷洒了DDT,然后在距离棚子10米的地方释放了埃及伊蚊(Aedesaegypti,携带齐昆古尼亚病毒、登革热和黄热病的物种)。

    The researchers sprayed DDT inside the huts and released Aedes aegypti mosquitoes the species that carries Chikungunya , dengue and yellow fever ten metres away from the huts .

  28. 有证据表明,ENSO和拉丁美洲的疟疾、东非的裂谷热以及泰国的登革热(以及它的一种更致命的形式:登革出血热)有联系。

    There is evidence linking ENSO to malaria in Latin America , rift valley fever in east Africa , and dengue fever and its more lethal form , dengue hemorrhagic fever , in Thailand .

  29. “目前,我们正在与公共卫生规划、疫苗制造商及世卫组织等国际组织开展合作,以确保尽早采用登革热疫苗,”daSilva说。

    " We are working with public health programmes , vaccine producers and international organizations , such as WHO , to make sure the dengue vaccine will have an early introduction ," da Silva says .

  30. 控制媒介伊蚊是防治DF最有效的方法,但传统上控制登革热媒介的措施存在许多局限性,转基因技术的出现为蚊媒疾病的防治提供了一个新的思路。

    The vector control is the most effective method to prevent and control DF . But the traditional vector control measures have a few of limitations . The transgenic technology provides a new strategy for the control of arthropod-borne diseases .