Detachable-dissolvable-microneedle as a potent subunit vaccine delivery device that requires no cold-chain

Abstract

Although vaccine administration by microneedles has been demonstrated, delivery reliability issues have prevented their implementation. Through anex vivoporcine skin experiment, we show visual evidence indicating that detachable dissolvable microneedles (DDMN) can deposit cargo into the dermis with insignificant loss of cargo to the stratum corneum. Using ovalbumin (OVA), a model antigen vaccine, as a cargo, theex vivoexperiments yielded a delivery efficiency of 86.08 ± 4.16 %. At room temperature, OVA could be stabilized for up to 35 days in DDMN made from hyaluronic acid and trehalose. The DDMN matrix could improve the denaturation temperature of the OVA from around 70–120 °C to over 150 °C, as demonstrated by differential scanning calorimetric analysis. In vivodelivery of OVA antigen into the mice's skin via DDMN elicited 10 times higher specific antibody responses compared to conventional intramuscular injection. We envision DDMN as an effective, precise dosing, intradermal vaccine delivery system that may require no cold-chain, offers a dose-sparing effect, and can be administered easily.