Timothy S. Dutill scite author profile

Development and characterization of stable and biocompatible oil-in-water emulsions is important for improved drug and vaccine delivery. In this work, two-component emulsions consisting of squalene and phosphatidylcholine have been developed. The reproducibility of the manufacturing process is established and production efficiency is improved by altering the order of component addition. The effects of emulsifier concentration and composition on emulsion stability and biocompatibility are assessed through dynamic light scattering, zeta potential measurement, viscosity, and hemolytic activity. High concentrations of egg phosphatidylcholine emulsifier decreased initial particle size and increased initial size polydispersity. However, high emulsifier concentrations also appeared to decrease long-term emulsion stability as well as absolute zeta potential values. Substitution of naturally derived egg phosphatidylcholine with synthetic 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) produced an emulsion with similar physicochemical properties and stability.

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Lyophilization of Adjuvanted Vaccines: Methods for Formulation of a Thermostable Freeze-Dried Product

Chan

Dutill²,

Kramer³

2016

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Lyophilization of vaccines is advantageous for the distribution and storage of thermally labile products, particularly in regions where cold chain management is difficult. To date, current lyophilized vaccines do not contain an adjuvant. Instead, adjuvanted vaccines may be presented as a two vial system, that require bedside-mixing prior to immunization. Here we present an example of a lyophilization cycle that we have used to successfully freeze-dry an adjuvanted protein formulation in a single vial.

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Lyophilization process engineering and thermostability of ID93 + GLA-SE, a single-vial adjuvanted subunit tuberculosis vaccine candidate for use in clinical studies

Dutill¹,

Archer

McCollum

et al. 2022

Front. Drug. Deliv.

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Promising clinical efficacy results have generated considerable enthusiasm for the potential impact of adjuvant-containing subunit tuberculosis vaccines. The development of a thermostable tuberculosis vaccine formulation could have significant benefits on both the cost and feasibility of global vaccine distribution. The tuberculosis vaccine candidate ID93 + GLA-SE has reached Phase 2 clinical testing, demonstrating safety and immunogenicity as a two-vial point-of-care mixture. Earlier publications have detailed efforts to develop a lead candidate single-vial lyophilized thermostable ID93 + GLA-SE vaccine formulation. The present report describes the lyophilization process development and scale-up of the lead candidate thermostable ID93 + GLA-SE composition. The manufacture of three full-scale engineering batches was followed by one batch made and released under current Good Manufacturing Practices (cGMP). Up to 4.5 years of stability data were collected. The cGMP lyophilized ID93 + GLA-SE passed all manufacturing release test criteria and maintained stability for at least 3 months when stored at 37°C and up to 24 months when stored at 5°C. This work represents the first advancement of a thermostable adjuvant-containing subunit tuberculosis vaccine to clinical testing readiness.

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Timothy S. Dutill

Physicochemical characterization and biological activity of synthetic TLR4 agonist formulations

Monitoring the effects of component structure and source on formulation stability and adjuvant activity of oil-in-water emulsions

Effects of emulsifier concentration, composition, and order of addition in squalene-phosphatidylcholine oil-in-water emulsions

Lyophilization of Adjuvanted Vaccines: Methods for Formulation of a Thermostable Freeze-Dried Product

Lyophilization process engineering and thermostability of ID93 + GLA-SE, a single-vial adjuvanted subunit tuberculosis vaccine candidate for use in clinical studies

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