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首页> 外文期刊>Vaccine >DNA vaccine delivery by densely-packed and short microprojection arrays to skin protects against vaginal HSV-2 challenge.
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DNA vaccine delivery by densely-packed and short microprojection arrays to skin protects against vaginal HSV-2 challenge.

机译:DNA疫苗通过密集包装且短的微突出物阵列运送至皮肤,可抵抗阴道HSV-2攻击。

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There is an unmet medical need for a prophylactic vaccine against herpes simplex virus (HSV). DNA vaccines and cutaneous vaccination have been tried for many applications, but few reports combine this vaccine composition and administration route. We compared DNA administration using the NanopatchTM, a solid microprojection device coated with vaccine comprised of thousands of short (110 micro m) densly-packed projections (70 micro m spacing), to standard intramuscular DNA vaccination in a mouse model of vaginal HSV-2 infection. A dose-response relationship was established for immunogenicity and survival in both vaccination routes. Appropriate doses administered by NanopatchTM were highly immunogenic and enabled mouse survival. Vaginal HSV-2 DNA copy number day 1 post challenge correlated with survival, indicating that vaccine-elicited acquired immune responses can act quickly and locally. Solid, short, densely-packed arrays of microprojections applied to the skin are thus a promising route of administration for DNA vaccines.Digital Object Identifier http://dx.doi.org/10.1016/j.vaccine.2010.09.014
机译:目前,针对单纯疱疹病毒(HSV)的预防性疫苗的医疗需求尚未得到满足。已经尝试了DNA疫苗和皮肤疫苗的许多用途,但是很少有报道将这种疫苗的成分和给药途径结合在一起。我们比较了使用Nanopatch TM 进行的DNA注射与标准肌内DNA疫苗接种,该装置由覆盖有数千个短(110微米)密集堆积的突出物(间距为70微米)的疫苗组成的固体微投射装置进行接种。阴道HSV-2感染的小鼠模型。建立了两种疫苗接种途径的免疫原性和存活率的剂量反应关系。 Nanopatch TM 给予的适当剂量具有很高的免疫原性,可以使小鼠存活。攻击后第1天的阴道HSV-2 DNA拷贝数与存活率相关,表明疫苗引起的后天免疫反应可以快速而局部地起作用。因此,施加到皮肤上的固体,短而密堆积的微突起阵列是DNA疫苗的一种有希望的给药途径。数字对象标识符http://dx.doi.org/10.1016/j.vaccine.2010.09.014

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