In-Jeong Choi scite author profile

Transdermal delivery using microneedles is gaining increasing attention from pharmaceutical and cosmetic companies as one of the promising drug delivery methods. Microneedle products have recently become available on the market, and some of them are under evaluation for efficacy and safety. To be available in the market for cosmetic and therapeutic use, several factors should be considered, including pain, anxiety, convenience and safety. These factors are summarized and reviewed in this article according to type of microneedle. Various kinds of materials have been used for manufacturing microneedles and developing drug formulations for microneedles. Safety information about materials used for microneedles is summarized in terms of type of microneedles. In addition to their biocompatibility, mechanical safety is also discussed. This review can provide guidelines for designing microneedle products for proper use.

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Live Vaccinia Virus-Coated Microneedle Array Patches for Smallpox Vaccination and Stockpiling

Choi¹,

Cha

Hwang

et al. 2021

Pharmaceutics

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Although smallpox has been eradicated globally, the potential use of the smallpox virus in bioterrorism indicates the importance of stockpiling smallpox vaccines. Considering the advantages of microneedle-based vaccination over conventional needle injections, in this study, we examined the feasibility of microneedle-based smallpox vaccination as an alternative approach for stockpiling smallpox vaccines. We prepared polylactic acid (PLA) microneedle array patches by micromolding and loaded a second-generation smallpox vaccine on the microneedle tips via dip coating. We evaluated the effect of excipients and drying conditions on vaccine stability in vitro and examined immune responses in female BALB/c mice by measuring neutralizing antibodies and interferon (IFN)-γ-secreting cells. Approximately 40% of the virus titer was reduced during the vaccine-coating process, with or without excipients. At −20 °C, the smallpox vaccine coated on the microneedles was stable up to 6 months. Compared to natural evaporation, vacuum drying was more efficient in improving the smallpox vaccine stability. Microneedle-based vaccination of the mice elicited neutralizing antibodies beginning 3 weeks after immunization; the levels were maintained for 12 weeks. It significantly increased IFN-γ-secreting cells 12 weeks after priming, indicating the induction of cellular immune responses. The smallpox-vaccine-coated microneedles could serve as an alternative delivery system for vaccination and stockpiling.

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Immediate separation of microneedle tips from base array during skin insertion for instantaneous drug delivery

et al. 2018

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In-Jeong Choi

Insertion-responsive microneedles for rapid intradermal delivery of canine influenza vaccine

Considerations in the use of microneedles: pain, convenience, anxiety and safety

Live Vaccinia Virus-Coated Microneedle Array Patches for Smallpox Vaccination and Stockpiling

Immediate separation of microneedle tips from base array during skin insertion for instantaneous drug delivery

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