Analytical and preformulation characterization studies of human papillomavirus virus-like particles to enable quadrivalent multi-dose vaccine formulation development

Introducing multi-dose formulations of Human Papillomavirus (HPV) vaccines will reduce costs and enable improved global vaccine coverage, especially in low- and middle-income countries. This work describes the development of key analytical methods later utilized for HPV vaccine multi-dose formulatio...

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Veröffentlicht in:	Journal of pharmaceutical sciences 2022-11, Vol.111 (11), p.2983-2997
Hauptverfasser:	Jerajani, Kaushal, Wan, Ying, Hickey, John M., Kumru, Ozan S., Sharma, Nitya, Pullagurla, Swathi R., Ogun, Oluwadara, Mapari, Shweta, Whitaker, Neal, Brendle, Sarah, Christensen, Neil D., Batwal, Saurabh, Mahedvi, Mustafa, Rao, Harish, Dogar, Vikas, Chandrasekharan, Rahul, Shaligram, Umesh, Joshi, Sangeeta B., Volkin, David B.
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Schlagworte:	Adjuvant Adjuvants, Immunologic Alphapapillomavirus Aluminum Aluminum Hydroxide Antibodies, Viral Biophysical characterization ELISA Formulation Human papillomavirus Humans Papillomaviridae Papillomavirus Infections - prevention & control Papillomavirus Vaccines - chemistry Pharmaceutical Preparations Preservatives Stability Vaccine Vaccines, Combined Virus-like particles
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creator	Jerajani, Kaushal Wan, Ying Hickey, John M. Kumru, Ozan S. Sharma, Nitya Pullagurla, Swathi R. Ogun, Oluwadara Mapari, Shweta Whitaker, Neal Brendle, Sarah Christensen, Neil D. Batwal, Saurabh Mahedvi, Mustafa Rao, Harish Dogar, Vikas Chandrasekharan, Rahul Shaligram, Umesh Joshi, Sangeeta B. Volkin, David B.
description	Introducing multi-dose formulations of Human Papillomavirus (HPV) vaccines will reduce costs and enable improved global vaccine coverage, especially in low- and middle-income countries. This work describes the development of key analytical methods later utilized for HPV vaccine multi-dose formulation development. First, down-selection of physicochemical methods suitable for multi-dose formulation development of four HPV (6, 11, 16, and 18) Virus-Like Particles (VLPs) adsorbed to an aluminum adjuvant (Alhydrogel®, AH) was performed. The four monovalent AH-adsorbed HPV VLPs were then characterized using these down-selected methods. Second, stability-indicating competitive ELISA assays were developed using HPV serotype-specific neutralizing mAbs, to monitor relative antibody binding profiles of the four AH-adsorbed VLPs during storage. Third, concentration-dependent preservative-induced destabilization of HPV16 VLPs was demonstrated by addition of eight preservatives found in parenterally administered pharmaceuticals and vaccines, as measured by ELISA, dynamic light scattering, and differential scanning calorimetry. Finally, preservative stability and effectiveness in the presence of vaccine components were evaluated using a combination of RP-UHPLC, a microbial growth inhibition assay, and a modified version of the European Pharmacopoeia assay (Ph. Eur. 5.1.3). Results are discussed in terms of analytical challenges encountered to identify and develop high-throughput methods that facilitate multi-dose formulation development of aluminum-adjuvanted protein-based vaccine candidates.
doi_str_mv	10.1016/j.xphs.2022.07.019
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Finally, preservative stability and effectiveness in the presence of vaccine components were evaluated using a combination of RP-UHPLC, a microbial growth inhibition assay, and a modified version of the European Pharmacopoeia assay (Ph. Eur. 5.1.3). 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subjects	Adjuvant Adjuvants, Immunologic Alphapapillomavirus Aluminum Aluminum Hydroxide Antibodies, Viral Biophysical characterization ELISA Formulation Human papillomavirus Humans Papillomaviridae Papillomavirus Infections - prevention & control Papillomavirus Vaccines - chemistry Pharmaceutical Preparations Preservatives Stability Vaccine Vaccines, Combined Virus-like particles
title	Analytical and preformulation characterization studies of human papillomavirus virus-like particles to enable quadrivalent multi-dose vaccine formulation development
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