Blake Gibson scite author profile

Subunit vaccine formulations are often produced as liquid dispersions through complicated processes. It is desirable, however, to have simple, cheap and up-scalable methods to produce nanoparticulate subunit vaccines in powder form. Here, a simple single-step spray drying process for production of powder cubosome precursors with the model antigen ovalbumin (OVA) and the adjuvant Quil-A is presented. The cubosomes were characterized in vitro and evaluated in vivo by subcutaneous and oral administration for their potential as a vaccine formulation. Hydrated cubosomes had average particle size of 257 ± 8 nm and zeta potential of -18.0 ± 0.6 mV. The powder contained 10.6 ± 0.7% w/w OVA prior to hydration, of which 65 ± 1% was released within the first 20 min in 9.5 mM PBS at pH 7.3, with the remaining OVA gradually released over the following 24 h. Immunization with cubosomes resulted in significantly stronger antigen-specific serum IgG responses (p < 0.01), CD8 T cell expansion (p < 0.0001) and target T cell killing compared to controls when given s.c., and was ineffective orally. This study shows that spray drying is a suitable method for producing nanoparticulate vaccine formulations in dry powder form.

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Poloxamer 407‐chitosan grafted thermoresponsive hydrogels achieve synchronous and sustained release of antigen and adjuvant from single‐shot vaccines

Bobbala

Gibson

Gamble

et al. 2018

Immunol Cell Biol

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Sustained-release vaccine delivery systems may enhance the immunogenicity of subunit vaccines and reduce the need for multiple vaccinations. The aim of this study was to develop a thermoresponsive hydrogel using poloxamer 407-chitosan (CP) grafted copolymer as a delivery system for single-shot sustained-release vaccines. The CP copolymer was synthesized using 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide and N-hydroxysuccinimide chemistry. The CP copolymer was a free flowing solution at ambient temperature and transformed rapidly into a gel at body temperature. The hydrogels were loaded with vaccine antigen and adjuvants or the vaccine components were encapsulated in poly (lactic-co-glycolic acid) nanoparticles in order to ensure synchronous release. The CP hydrogels were stable for up to 18 days in vitro. Release of both nanoparticles and the individual components was complete, with release of the individual components being modulated by incorporation into nanoparticles. In vivo, a single dose of CP hydrogel vaccine induced strong, long lasting, cellular and humoral responses that could protect against the development of tumors in a murine melanoma model.

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Microcontainers for protection of oral vaccines, in vitro and in vivo evaluation

Laier

Gibson

Moreno

et al. 2019

Journal of Controlled Release

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Twin-screw extruded lipid implants containing TRP2 peptide for tumour therapy

Even

Bobbala

Gibson

et al. 2017

European Journal of Pharmaceutics and Biopharmaceutics

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EGFR-targeted prodrug activation using bioorthogonal alkene-azide click-and-release chemistry

Fairhall

Camilli

Gibson

et al. 2021

Bioorganic & Medicinal Chemistry

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Preliminary evaluation of a thermosensitive chitosan hydrogel for Echinococcus granulosus vaccine delivery

Umair

Pernthaner

Deng

et al. 2017

Veterinary Parasitology

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The Mont Park Survey for Ocular Changes in Chlorpromazine Therapy

Galbraith¹,

Gibson²,

Crock³

et al. 1966

Medical Journal of Australia

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Blake Gibson

Spray dried cubosomes with ovalbumin and Quil-A as a nanoparticulate dry powder vaccine formulation

Poloxamer 407‐chitosan grafted thermoresponsive hydrogels achieve synchronous and sustained release of antigen and adjuvant from single‐shot vaccines

Microcontainers for protection of oral vaccines, in vitro and in vivo evaluation

Twin-screw extruded lipid implants containing TRP2 peptide for tumour therapy

EGFR-targeted prodrug activation using bioorthogonal alkene-azide click-and-release chemistry

Preliminary evaluation of a thermosensitive chitosan hydrogel for Echinococcus granulosus vaccine delivery

The Mont Park Survey for Ocular Changes in Chlorpromazine Therapy

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