Development of a thermostable microneedle patch for polio vaccination

The aim of this study was to develop a dissolving microneedle (MN) patch for administration of inactivated polio vaccine (IPV) with improved thermal stability when compared with conventional liquid IPV. Excipient screening showed that a combination of maltodextrin and D-sorbitol in histidine buffer best preserved IPV activity during MN patch fabrication and storage. As determined by D-antigen ELISA, all three IPV serotypes maintained >70% activity after 2months and >50% activity after 1-year storage at 5 degrees C or 25 degrees C with desiccant. Storage at 40 degrees C yielded >40% activity after 2months and >20% activity after 1year. In contrast, commercial liquid IPV types 1 and 2 lost essentially all activity within 1month at 40 degrees C and IPV type 3 had <40% activity. Residual moisture content in MN patches measured by thermogravimetric analysis was 1.2-6.5%, depending on storage conditions. Glass transition temperature measured by differential scanning calorimetry, structural changes measured by X-ray diffraction, and molecular interactions measured by Fourier transform infrared spectroscopy showed changes in MN matrix properties, but they did not correlate with IPV activity changes during storage. We conclude that appropriately formulated MN patches can exhibit thermostability that could enable distribution of IPV with less reliance on cold chain storage.