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Formulation Development and Improved Stability of a Combination Measles and Rubella Live-Viral Vaccine Dried for Use in the Nanopatch(TM) Microneedle Delivery System
Wan, Ying Gupta, Vineet Bird, Christopher Pullagurla, Swathi R. Fahey, Paul Forster, Angus Volkin, David B. Joshi, Sangeeta B.
Wan, Ying
Gupta, Vineet
Bird, Christopher
Pullagurla, Swathi R.
Fahey, Paul
Forster, Angus
Volkin, David B.
Joshi, Sangeeta B.
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Abstract
Measles (Me) and rubella (Ru) viral diseases are targeted for elimination by ensuring a high level of vaccination coverage worldwide. Less costly, more convenient MeRu vaccine delivery systems should improve global vaccine coverage, especially in low – and middle – income countries (LMICs). In this work, we examine formulating a live, attenuated Me and Ru combination viral vaccine with Nanopatch™, a solid polymer micro-projection array for intradermal delivery. First, high throughput, qPCR-based viral infectivity and genome assays were established to enable formulation development to stabilize Me and Ru in a scaled-down, custom-built evaporative drying system to mimic the Nanopatch™ vaccine coating process. Second, excipient screening and optimization studies identified virus stabilizers for use during the drying process and upon storage in the dried state. Finally, a series of real-time and accelerated stability studies identified eight candidate formulations that met a target thermal stability criterion for live vaccines (<1 log10 loss after 1 week storage at 37°C). Compared to −80°C control samples, the top candidate formulations resulted in minimal viral infectivity titer losses after storage at 2–8°C for 6 months (i.e., <0.1 log10 for Me, and ~0.4 log10 for Ru). After storage at 25°C over 6 months, ~0.3–0.5 and ~1.0–1.4 log10 titer losses were observed for Me and Ru, respectively, enabling the rank-ordering of the stability of candidate formulations. These results are discussed in the context of future formulation challenges for developing microneedle-based dosage forms containing stabilized live, attenuated viral vaccines for use in LMICs.
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2021-05-06
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Taylor and Francis
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Wan_2021.pdf
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Measles, Rubella, Virus, Vaccine, Formulation, Stability, Delivery, Microneedle, Nanopatch(TM), Microarray patch
Citation
Wan, Y., Gupta, V., Bird, C., Pullagurla, S. R., Fahey, P., Forster, A., Volkin, D. B., & Joshi, S. B. (2021). Formulation Development and Improved Stability of a Combination Measles and Rubella Live-Viral Vaccine Dried for Use in the NanopatchTM Microneedle Delivery System. Human vaccines & immunotherapeutics, 17(8), 2501–2516. https://doi.org/10.1080/21645515.2021.1887692