Lyophilization Process Engineering and Thermostability of ID93 + GLA-SE, a Single-Vial Adjuvanted Subunit Tuberculosis Vaccine Candidate for Use in Clinical Studies.
Timothy S Dutill, Michelle C Archer, Joseph McCollum, Chris Press, Lisa McNeill, Linda Hawkins, Tony Phan, Erik Laursen, Richard Cabullos, Lisa Bouchard, Regie J Castro, Mong-Wu Lin, Jeralyn Roco, Cecile Blois, Babatunde Adeagbo, Jeffrey A Guderian, Alana Gerhardt, Anna Marie Beckmann, Edward H Trappler, Ryan M Kramer, Christopher B Fox
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引用次数: 2
Abstract
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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