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W2157916202 abstract "Driven by constantly increasing knowledge about skin immunology, vaccine delivery via the cutaneous route has recently gained renewed interest. Considering its richness in immunocompetent cells, targeting antigens to the skin is considered to be more effective than intramuscular or subcutaneous injections. However, circumvention of the superficial layer of the skin, the stratum corneum, represents the major challenge for cutaneous immunization. An optimal delivery method has to be effective and reliable, but also highly adaptable to specific demands, should avoid the use of hypodermic needles and the requirement of specially trained healthcare workers. The P.L.E.A.S.E. (Precise Laser Epidermal System) device employed in this study for creation of aqueous micropores in the skin fulfills these prerequisites by combining the precision of its laser scanning technology with the flexibility to vary the number, density and the depth of the micropores in a user-friendly manner. We investigated the potential of transcutaneous immunization via laser-generated micropores for induction of specific immune responses and compared the outcomes to conventional subcutaneous injection. By targeting different layers of the skin we were able to bias polarization of T cells, which could be modulated by addition of adjuvants. The P.L.E.A.S.E. device represents a highly effective and versatile platform for transcutaneous vaccination." @default.
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W2157916202 date "2012-09-01" @default.
W2157916202 modified "2023-09-26" @default.
W2157916202 title "Transcutaneous vaccination via laser microporation" @default.
W2157916202 cites W1528124361 @default.
W2157916202 cites W1546213590 @default.
W2157916202 cites W1625990430 @default.
W2157916202 cites W1898882018 @default.
W2157916202 cites W1904661552 @default.
W2157916202 cites W1959215723 @default.
W2157916202 cites W1964895045 @default.
W2157916202 cites W1968514463 @default.
W2157916202 cites W1968878008 @default.
W2157916202 cites W1979962571 @default.
W2157916202 cites W1983101441 @default.
W2157916202 cites W1988105019 @default.
W2157916202 cites W1989190983 @default.
W2157916202 cites W1993374852 @default.
W2157916202 cites W1998813718 @default.
W2157916202 cites W2000620937 @default.
W2157916202 cites W2001306312 @default.
W2157916202 cites W2004028083 @default.
W2157916202 cites W2006120701 @default.
W2157916202 cites W2007063916 @default.
W2157916202 cites W2011933811 @default.
W2157916202 cites W2013672948 @default.
W2157916202 cites W2015336716 @default.
W2157916202 cites W2019997303 @default.
W2157916202 cites W2021970178 @default.
W2157916202 cites W2023231194 @default.
W2157916202 cites W2029638268 @default.
W2157916202 cites W2034832824 @default.
W2157916202 cites W2045992337 @default.
W2157916202 cites W2052818607 @default.
W2157916202 cites W2053720225 @default.
W2157916202 cites W2062254683 @default.
W2157916202 cites W2064067735 @default.
W2157916202 cites W2066374070 @default.
W2157916202 cites W2070382042 @default.
W2157916202 cites W2071330198 @default.
W2157916202 cites W2072082052 @default.
W2157916202 cites W2076397065 @default.
W2157916202 cites W2078827499 @default.
W2157916202 cites W2080627392 @default.
W2157916202 cites W2081159973 @default.
W2157916202 cites W2081293715 @default.
W2157916202 cites W2082748827 @default.
W2157916202 cites W2084014721 @default.
W2157916202 cites W2084789163 @default.
W2157916202 cites W2084928487 @default.
W2157916202 cites W2085816879 @default.
W2157916202 cites W2088066335 @default.
W2157916202 cites W2088106388 @default.
W2157916202 cites W2089115481 @default.
W2157916202 cites W2090889765 @default.
W2157916202 cites W2091548845 @default.
W2157916202 cites W2111894010 @default.
W2157916202 cites W2115912718 @default.
W2157916202 cites W2122020581 @default.
W2157916202 cites W2131878781 @default.
W2157916202 cites W2142860471 @default.
W2157916202 cites W2163758302 @default.
W2157916202 cites W2327558967 @default.
W2157916202 cites W4243814655 @default.
W2157916202 doi "https://doi.org/10.1016/j.jconrel.2012.06.031" @default.
W2157916202 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3462999" @default.
W2157916202 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22750193" @default.
W2157916202 hasPublicationYear "2012" @default.
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