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1.
为了探讨甲型H1N1流感病毒氢氧化铝佐剂疫苗对小鼠的免疫作用及对小鼠繁殖性能的影响,以不同剂量、不同免疫程序免疫小鼠后定期采血;用血凝抑制(HI)方法检测血清H1N1流感病毒HI抗体滴度,观察H1N1流感病毒佐剂疫苗对小鼠受孕、产仔、哺乳的影响;比较孕鼠及非孕鼠的抗体滴度,免疫后孕鼠所产仔鼠的体重及H1N1胎传抗体水平。结果显示,以0.5μg组开始的不同剂量、不同免疫程序均可使小鼠产生90倍以上水平的H1N1流感病毒抗体;免疫后的小鼠不影响受孕、产仔及哺乳;仔鼠保护性抗体可持续1个月以上。H1N1流感病毒佐剂疫苗是一种高免疫原性的制剂,用低剂量免疫,即可产生90倍以上持续时间较长的保护性抗体。这种佐剂疫苗对小鼠的繁殖性能无明显影响,免疫产生的抗体经胎盘可垂直传递给仔鼠。 相似文献
2.
张亚楠黄生波李小曼常海艳方芳 《激光生物学报》2017,(1):68-72
探讨玉竹多糖(Polygonatum odoratun polysaccharides,POP)对流感病毒裂解疫苗黏膜免疫的佐剂效果。以BALB/c小鼠为模型,将H7N9流感病毒裂解疫苗单独或者添加不同剂量的POP(400、600、800、1 000和1200μg)做佐剂一次性滴鼻免疫小鼠,免疫三周后小鼠以致死剂量同源病毒攻击。实验结果表明,当在疫苗中加入1 000μg POP时,与疫苗单独免疫相比,单次滴鼻免疫就明显增强了小鼠抵抗致死量病毒感染的能力,体重丢失减少,肺部残余病毒滴度下降,存活率提高;血清中疫苗特异性IgG抗体和HI抗体以及鼻洗液中SIgA抗体都提高了;IgG亚类抗体检测显示,POP的加入显著增加了IgG1的抗体滴度,但抑制了IgG2a的产生,说明诱导的免疫应答偏向于Th2型。实验表明POP在一定剂量时能增强疫苗诱导的免疫应答,显示出黏膜佐剂效应。 相似文献
3.
《微生物学免疫学进展》2016,(2)
目的研究阳离子脂质体DOTAP佐剂对H5N1型流感病毒裂解疫苗免疫效果的影响。方法制备DOTAP阳离子脂质体流感病毒裂解疫苗(简称DOTAP流感裂解疫苗),检测其包封率。将BALB/c小鼠分为13组,分别用含0.1、1.0、10.0μg HA/只剂量以DOTAP、Al(OH)3、CPG-ODN为佐剂以及不含佐剂的流感裂解疫苗于0、21天皮下免疫,PBS作为对照组,用血凝抑制试验检测小鼠初次免疫后21、42天血清HI抗体滴度;用ELISA检测初次免疫后21、42天血清特异性IgG抗体、IgG1、IgG2a亚类抗体滴度,以及初次免疫后42天小鼠脾脏单个核细胞体外经抗原刺激后细胞因子IL-2、IL-4、IFN-γ的分泌水平。将BALB/c小鼠分为3组,分别用含不同DOTAP剂量(100、300、600μg/只)的DOTAP流感裂解疫苗于0、21天皮下免疫,检测初次免疫后21、42天小鼠血清HI抗体滴度和IgG抗体滴度。结果 DOTAP流感裂解疫苗粒径在300~400 nm,带正电荷,包封率在50%以上;DOTAP流感裂解疫苗诱导的HI抗体水平和特异性IgG抗体水平均高于流感裂解疫苗,而与铝佐剂和Cp G-ODN佐剂间差异无统计学意义;DOTAP流感裂解疫苗产生的抗体仍以IgG1亚类抗体为主,免疫后42天诱导的IgG2a亚类抗体水平高于流感裂解疫苗和铝佐剂,低于Cp G-ODN佐剂;DOTAP流感裂解疫苗免疫后既分泌高水平Th1型细胞因子IFN-γ,同时也分泌高水平Th2型细胞因子IL-4;不同DOTAP剂量的DOTAP流感裂解疫苗免疫后,其HI抗体滴度和IgG抗体滴度在低、中、高剂量组之间存在明显的量效关系。结论 DOTAP作为H5N1型流感病毒裂解疫苗的佐剂可显著提高流感裂解疫苗的免疫原性,其对体液免疫应答的增强作用不低于铝佐剂和Cp G-ODN佐剂,并具有诱导细胞免疫应答的能力。 相似文献
4.
目的 评价季节性流感裂解疫苗对流感病毒H7N9的免疫保护效力.方法 用我国2012~2013年度季节性流感裂解疫苗,以腹腔注射方式免疫BALB/c小鼠,并设PBS免疫模型组,末次免疫14 d后以5 LD50 A/Anhui/1(H7N9)进行攻试验.感染后观察记录小鼠临床表现,体重变化,并分别于第2天和第4天每组处死3只小鼠,取肺组织和鼻甲骨测病毒滴度和载量.结果 感染后疫苗与模型组小鼠体重下降明显,疫苗组存活率为10%,模型组全部死亡.感染后第4天疫苗组鼻甲骨滴度显著低于模型组.血凝抑制试验及中和实验表明免疫小鼠血清无中和H7N9病毒抗体.结论 季节性流感疫苗在小鼠中对于H7N9流感病毒感染无明显保护作用. 相似文献
5.
目的评价季节性流感裂解疫苗对流感病毒H7N9的免疫保护效力。方法用我国2012~2013年度季节性流感裂解疫苗,以腹腔注射方式免疫BALB/c小鼠,并设PBS免疫模型组,末次免疫14 d后以5 LD50A/Anhui/1(H7N9)进行攻试验。感染后观察记录小鼠临床表现,体重变化,并分别于第2天和第4天每组处死3只小鼠,取肺组织和鼻甲骨测病毒滴度和载量。结果感染后疫苗与模型组小鼠体重下降明显,疫苗组存活率为10%,模型组全部死亡。感染后第4天疫苗组鼻甲骨滴度显著低于模型组。血凝抑制试验及中和实验表明免疫小鼠血清无中和H7N9病毒抗体。结论季节性流感疫苗在小鼠中对于H7N9流感病毒感染无明显保护作用。 相似文献
6.
在流感病毒疫苗中,DNA疫苗有望成为常规疫苗的替代品.研究构建了两个分别编码A/New Caledonia/20/99(H1N1)和A/California/04/2009(H1N1)流感病毒株血凝素抗原的DNA疫苗pV1A5和pVEH1,目的抗原经验证能够正确表达后,利用小鼠模型通过电穿孔方法肌肉注射免疫进行疫苗免疫效力评价.采用血凝抑制实验和酶联免疫吸附实验对免疫小鼠的血清进行血凝素特异性抗体检测,对血凝素特异性的T淋巴细胞经IFN-γ酶联免疫斑点实验进行检测.然后选择小鼠适应株A/NewCaledonia/20/99(H1N1)100个半数致死剂量对候选疫苗免疫的小鼠攻毒并监测生存率和体重变化率,以此评价疫苗保护效力.两疫苗组免疫小鼠T淋巴细胞和体液免疫水平显著高于pVAX1空载体对照组(P〈0.05).此外,pV1A5组能够100%保护免疫小鼠抵抗100致死剂量同源病毒小鼠适应株的攻毒,而同种病毒下pVEH1组只有40%的保护率.结果表明,本实验构建的季节性流感DNA疫苗能够对同源病毒攻毒提供完全保护,而大流行流感株DNA疫苗只能部分抵抗季节性流感病毒. 相似文献
7.
流感病毒M2(基质蛋白2)是A型流感病毒的一个高度保守的蛋白。由于其免疫原性较弱,本研究采用M2 DNA疫苗初免-蛋白加强的策略来考察M2的免疫保护效果。制备A/Chicken/Jiangsu/07/2002(H9N2)流感病毒的M2 DNA疫苗以及经大肠杆菌表达的去除M2跨膜区的M2蛋白即sM2。以SPF级BALB/c小鼠为模型,电击法免疫M2 DNA疫苗,滴鼻法免疫sM2蛋白,免疫间隔三周,并于末次免疫后三周以致死量5LD50流感病毒H9N2攻击小鼠,通过检测小鼠存活率、体重丢失率、肺部病毒滴度及IgG抗体水平等指标来评价免疫的保护效果。实验结果表明,基于M2的疫苗采用DNA疫苗初免蛋白加强免疫二次的免疫程序能诱导较高的特异性抗体,明显减轻小鼠流感病症,提供完全的保护。 相似文献
8.
以BALB/c小鼠为模型,探讨H7N9流感病毒灭活疫苗免疫小鼠后所诱导的长效体液免疫应答的动态变化。不同剂量的流感H7N9全病毒灭活疫苗单独或辅以MF59佐剂肌肉注射免疫小鼠一次。连续采集免疫后小鼠15个月的血清,用ELISA方法检测特异性IgG抗体水平,血凝抑制(hemagglutination inhibition,HI)试验和微量中和(microneutralization,MN)试验检测第15个月时的HI抗体和中和抗体效价。实验结果发现,小鼠血清中的特异性IgG抗体水平随时间变化持续缓慢上升,第5个月时达到顶峰,随后略有下降但一直持续平稳状态;IgG抗体滴度与疫苗剂量成正相关,且添加佐剂能提高抗体滴度。HI及MN抗体检测表明,免疫后第15个月产生的抗体能有效中和病毒,且抗体跟疫苗剂量成正比。以上研究表明,H7N9流感病毒灭活疫苗免疫小鼠一次诱导产生的特异性抗体能在较长期内保持比较平稳的抗体滴度,为小鼠提供免疫保护;增加抗原剂量和添加MF59佐剂能增加疫苗特异性抗体水平。该研究为H7N9流感疫苗产生的长期保护效应提供了一定的数据积累和参考。 相似文献
9.
为增强H7N9流感病毒HA DNA疫苗的免疫效果,本文构建了含有流感病毒NP的5个重复优势T表位或B表位(包括B_1线性表位和B_2构象表位)的表达质粒(简称NPT和NPB),以小鼠为动物模型,将NPT和NPB分别与H7N9流感病毒HA DNA混合免疫BALB/c小鼠1次,21 d后用致死剂量(20 LD_(50))的H7N9流感病毒攻击小鼠。通过检测免疫后小鼠血清特异性抗体滴度和攻毒后的免疫保护性指标-存活率、肺部残余病毒滴度及体重丢失率,评价表位质粒与HA DNA疫苗混合免疫对小鼠的保护效果。试验结果表明:用致死性H7N9流感病毒攻击小鼠后,HA DNA组小鼠全部死亡,HA+NPT免疫组小鼠存活率达到100%,HA+NPB1和HA+NPB2免疫组,小鼠存活率分别为30%和75%;混合免疫HA+NPT后小鼠抗体滴度升高明显,攻毒后小鼠体重丢失明显降低。综上表明,含有5个NP优势T表位或B表位的表达质粒能增强H7N9流感病毒HA DNA疫苗的免疫效果,混合免疫一次可以使小鼠得到较好的保护。HA DNA和表位疫苗的混合免疫,节约了疫苗用量,降低了免疫成本,为流感病毒核酸疫苗的临床开发提供了一定的试验基础。 相似文献
10.
实验比较了小鼠对表达流感病毒A/NJ/11/76(H1N1)和A/Jap/305/57(H2N2)血凝素基因的痘苗病毒重组株HSW2和VInf1的免疫反应,两株重组病毒经静脉或静脉加鼻腔免疫小鼠后都产生相应血凝抑制抗体;用不同剂量的痘苗病毒重组株HSW2皮内接种家兔也产生相应抗体,且抗体滴度与接种的病毒量成正比关系,但用痘苗病毒野毒株免疫的家兔未测到抗体,这两株痘苗病毒重组株免疫的小鼠,能保护小鼠对流感病毒母株的攻击,HSW2和VInf1的保护指数分别为3.3和3.9个对数,但这两株病毒未能诱导细胞毒性T细胞反应。 相似文献
11.
Wang W Anderson CM De Feo CJ Zhuang M Yang H Vassell R Xie H Ye Z Scott D Weiss CD 《PLoS pathogens》2011,7(6):e1002081
Pandemic 2009 H1N1 influenza A virus (2009 H1N1) differs from H1N1 strains that circulated in the past 50 years, but resembles the A/New Jersey/1976 H1N1 strain used in the 1976 swine influenza vaccine. We investigated whether sera from persons immunized with the 1976 swine influenza or recent seasonal influenza vaccines, or both, neutralize 2009 H1N1. Using retroviral pseudovirions bearing hemagglutinins on their surface (HA-pseudotypes), we found that 77% of the sera collected in 1976 after immunization with the A/New Jersey/1976 H1N1 swine influenza vaccine neutralized 2009 H1N1. Forty five percent also neutralized A/New Caledonia/20/1999 H1N1, a strain used in seasonal influenza vaccines during the 2000/01-2006/07 seasons. Among adults aged 48-64 who received the swine influenza vaccine in 1976 and recent seasonal influenza vaccines during the 2004/05-2008/09 seasons, 83% had sera that neutralized 2009 H1N1. However, 68% of age-matched subjects who received the same seasonal influenza vaccines, but did not receive the 1976 swine influenza vaccine, also had sera that neutralized 2009 H1N1. Sera from both 1976 and contemporary cohorts frequently had cross-neutralizing antibodies to 2009 H1N1 and A/New Caledonia/20/1999 that mapped to hemagglutinin subunit 2 (HA2). A conservative mutation in HA2 corresponding to a residue in the A/Solomon Islands/3/2006 and A/Brisbane/59/2007 H1N1 strains that circulated in the 2006/07 and 2007/08 influenza seasons, respectively, abrogated this neutralization. These findings highlight a cross-neutralization determinant influenced by a point mutation in HA2 and suggest that HA2 may be evolving under direct or indirect immune pressure. 相似文献
12.
本文通过比较2011年分离培养的1株季节性甲型H1N1流行性感冒(简称流感)病毒(A/Shanghai/1167/2011(H1N1))与历年季节性甲型H1N1流感病毒的血凝素(HA)基因,追溯该病毒的基因变异与来源,探讨该毒株的出现对流感防控工作的意义.采用反转录-聚合酶链反应(RT-PCR)方法扩增病毒的HA和神经氨酸酶(NA)片段,并进行测序;应用分子生物学软件对获得的序列进行分析,绘制基因进化树;同时,通过血凝抑制试验检测2011年下半年健康人群中该流感病毒的抗体水平.结果显示,A/Shanghai/1167/2011(H1N1)的HA基因序列与世界卫生组织(WHO)2007~2008年季节性甲型H1N1流感病毒疫苗株A/Brisbane/59/2007(H1N1)最接近,同源性达99.2%,与新型甲型H1N1流感病毒A/California/07/2009疫苗株同源性仅为72.4%.其HA基因裂解位点为PSIQSR↓GLF,尚未出现高致病性的分子特征.HA片段共编码557个氨基酸,有9个潜在的糖基化位点,序列与2009年前WHO疫苗株A/NewCaledonia/20/1999(H1N1)、A/SolomonIslands/3/2006(H1N1)和/Brisbane/59/2007(H1N1)相比,分别有15、12和4处不同,这些差异分布在Sa、Sb、Ca1、Ca2、Cb 5个抗原决定簇的氨基酸差异分别有5、5和2处.该毒株在健康人群血清的抗体阳性率为34.33%,几何平均效价(GMT)为10.38.A/Shanghai/1167/2011(H1N1)是2011年出现在上海地区的一个季节性甲型H1N1流感病毒毒株,其抗原变异与既往季节性甲型H1N1流感病毒相比不大,但在以A(H1N1)pdm09为主要流行株的年份检测到散在发生的既往季节性甲型H1N1流感病毒毒株应当引起重视,其在人群中的抗体水平较低,易引起流行,需要提高对类流感人群中此种毒株的持续监测. 相似文献
13.
The campaign of 2009-2010 Northern Hemisphere seasonal vaccination was concurrent with the 2009 H1N1 pandemic. Using a hemagglutination inhibition (HAI) assay, we evaluated the immunogenicity and cross-reactivity of 2009-2010 inactivated trivalent influenza vaccine (TIV) in US adult and elderly populations. Vaccination of TIV resulted in a robust boost on the antibody response of all subjects to seasonal A/Brisbane/59/2007 (H1N1) and A/Uruguay/716/2007 (H3N2) with over 70% of recipients reaching a seroprotective titer of 40. B/Brisbane/60/2008 was the least immunogenic among the three seasonal vaccine strains with <30% of TIV recipients reaching a seroprotective titer of 40. TIV vaccination also induced a moderate boost on the pandemic specific antibody responses. Twenty-four percent of adults and 36% of elderly reached a seroprotective HAI titer of 40 or more against pandemic A/South Carolina/18/2009 (H1N1) after receiving TIV compared to 4% and 7% at the beginning of vaccination, respectively. In addition, 22% of adults and 34% of elderly showed an increase of 4-fold or more in A/South Carolina/18/2009 specific HAI titers after TIV vaccination. The pandemic specific cross-reactive antibodies strongly correlated with the post-vaccination HAI titers against the seasonal H3N2 vaccine strain in all subjects. 相似文献
14.
Between 2007 and 2009, oseltamivir resistance developed among seasonal influenza A/H1N1 (sH1N1) virus isolates at an exponential rate, without a corresponding increase in oseltamivir usage. We hypothesized that the oseltamivir-resistant neuraminidase (NA), in addition to being relatively insusceptible to the antiviral effect of oseltamivir, might confer an additional fitness advantage on these viruses by enhancing their transmission efficiency among humans. Here we demonstrate that an oseltamivir-resistant clinical isolate, an A/Brisbane/59/2007(H1N1)-like virus isolated in New York State in 2008, transmits more efficiently among guinea pigs than does a highly similar, contemporaneous oseltamivir-sensitive isolate. With reverse genetics reassortants and point mutants of the two clinical isolates, we further show that expression of the oseltamivir-resistant NA in the context of viral proteins from the oseltamivir-sensitive virus (a 7:1 reassortant) is sufficient to enhance transmissibility. In the guinea pig model, the NA is the critical determinant of transmission efficiency between oseltamivir-sensitive and -resistant Brisbane/59-like sH1N1 viruses, independent of concurrent drift mutations that occurred in other gene products. Our data suggest that the oseltamivir-resistant NA (specifically, one or both of the companion mutations, H275Y and D354G) may have allowed resistant Brisbane/59-like viruses to outtransmit sensitive isolates. These data provide in vivo evidence of an evolutionary mechanism that would explain the rapidity with which oseltamivir resistance achieved fixation among sH1N1 isolates in the human reservoir. 相似文献
15.
对2009 年长沙麓山国际学校流感暴发疫情进行实验室诊断, 并探索新分离的A(H1N1)亚型流感病毒血凝素(HA)的基因特性。对流感暴发疫情的25 份鼻/咽拭子标本进行RT-PCR检测和流感病毒分离, 然后利用CEQ?8000 Genetic Analysis System对病毒分离株(A/Yuelu/314/2009)进行测序, 测序结果提交至GenBank(登录号: FJ912843)并用ClustalX和Mega4.1软件进行序列分析。结果显示, 分离出A(H1N1)亚型流感毒株18株, 检出21份A(H1N1)亚型流感病毒核酸阳性; A/Yuelu/314/2009(H1N1) HA基因序列与2008~2009 年疫苗株(A/Brisbane/59/2007)比较显示: 核苷酸和氨基酸同源性均为99%, 有6个位点的氨基酸发生了变异(V148A、S158N、G202A、I203D、A206T、W435R), 其中一个S158N氨基酸变异位于B抗原表位, HA基因序列上共有潜在糖基化位点9 个(27、28、40、71、151、176、303、497、536), 与A/Brisbane/59/2007相同且氨基酸序列保守。本实验诊断出此次流感暴发疫情的病原体为A(H1N1)型季节性流感病毒, 研究还发现A/Yuelu/314/2009(H1N1)长沙分离株与A/Brisbane/59/2007 疫苗株基因序列比较显示并未形成一个新的变种, 推测是由于分离株与疫苗株之间基因特性的改变和人群对A(H1N1)亚型流感病毒免疫力降低导致了此次长沙麓山国际学校A(H1N1)亚型流感的暴发。 相似文献
16.
Bodewes R Kreijtz JH Geelhoed-Mieras MM van Amerongen G Verburgh RJ van Trierum SE Kuiken T Fouchier RA Osterhaus AD Rimmelzwaan GF 《Journal of virology》2011,85(6):2695-2702
Infection with seasonal influenza viruses induces a certain extent of protective immunity against potentially pandemic viruses of novel subtypes, also known as heterosubtypic immunity. Here we demonstrate that infection with a recent influenza A/H3N2 virus strain induces robust protection in ferrets against infection with a highly pathogenic avian influenza virus of the H5N1 subtype. Prior H3N2 virus infection reduced H5N1 virus replication in the upper respiratory tract, as well as clinical signs, mortality, and histopathological changes associated with virus replication in the brain. This protective immunity correlated with the induction of T cells that cross-reacted with H5N1 viral antigen. We also demonstrated that prior vaccination against influenza A/H3N2 virus reduced the induction of heterosubtypic immunity otherwise induced by infection with the influenza A/H3N2 virus. The implications of these findings are discussed in the context of vaccination strategies and vaccine development aiming at the induction of immunity to pandemic influenza. 相似文献
17.
目的 甲型H1N1流感病毒A/California/7/2009分别与A/Brisbane/10/07和A/ShenZhen/406H/06共感染小型香猪,预测甲流病毒在与季流H3N2病毒/甲流病毒与禽流感病毒共感染时是否会发生变异.方法 分别将A/California/7/2009(CA7)与A/Brisbane/10/07(H3N2),A/California/7/2009与A/Shenzhen/406H/06(H5N1)对5~6月龄小型猪共感染,小型猪经复方氯胺酮0.1 mL/kg麻醉后进行滴鼻感染,感染后第5天安乐死动物,取动物肺组织作病毒测序分析.结果 A/California/7/2009(CA7)与A/Brisbane/10/07(H3N2)共感染后,A/California/7/2009病毒PB1基因993位G→A突变,PA基因1659位G→A突变,没有氨基酸的变异.A/California/7/2009与A/Shenzhen/406H/06(H5N1)共感染后A/California/7/2009病毒PB2基因1711位T→C突变.碱基的突变未引起氨基酸的变异.结论 A/California/7/2009(CA7)与A/Brisbane/10/07(H3N2),A/California/7/2009与A/Shenzhen/406H/06(H5N1)共感染后在猪的体内没有发生病毒重组、变异. 相似文献
18.
Sun Y Bian C Xu K Hu W Wang T Cui J Wu H Ling Z Ji Y Lin G Tian L Zhou Y Li B Hu G Yu N An W Pan R Zhou P Leng Q Huang Z Ma X Sun B 《PloS one》2010,5(12):e14270
Background
The 2009 swine-origin influenza virus (S-OIV) H1N1 pandemic has caused more than 18,000 deaths worldwide. Vaccines against the 2009 A/H1N1 influenza virus are useful for preventing infection and controlling the pandemic. The kinetics of the immune response following vaccination with the 2009 A/H1N1 influenza vaccine need further investigation.Methodology/Principal Findings
58 volunteers were vaccinated with a 2009 A/H1N1 pandemic influenza monovalent split-virus vaccine (15 µg, single-dose). The sera were collected before Day 0 (pre-vaccination) and on Days 3, 5, 10, 14, 21, 30, 45 and 60 post vaccination. Specific antibody responses induced by the vaccination were analyzed using hemagglutination inhibition (HI) assay and enzyme-linked immunosorbent assay (ELISA). After administration of the 2009 A/H1N1 influenza vaccine, specific and protective antibody response with a major subtype of IgG was sufficiently developed as early as Day 10 (seroprotection rate: 93%). This specific antibody response could maintain for at least 60 days without significant reduction. Antibody response induced by the 2009 A/H1N1 influenza vaccine could not render protection against seasonal H1N1 influenza (seroconversion rate: 3% on Day 21). However, volunteers with higher pre-existing seasonal influenza antibody levels (pre-vaccination HI titer ≥1∶40, Group 1) more easily developed a strong antibody protection effect against the 2009 A/H1N1 influenza vaccine as compared with those showing lower pre-existing seasonal influenza antibody levels (pre-vaccination HI titer <1∶40, Group 2). The titer of the specific antibody against the 2009 A/H1N1 influenza was much higher in Group 1 (geometric mean titer: 146 on Day 21) than that in Group 2 (geometric mean titer: 70 on Day 21).Conclusions/Significance
Recipients could gain sufficient protection as early as 10 days after vaccine administration. The protection could last at least 60 days. Individuals with a stronger pre-existing seasonal influenza antibody response may have a relatively higher potential for developing a stronger humoral immune response after vaccination with the 2009 A/H1N1 pandemic influenza vaccine. 相似文献19.