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Aluminum Phosphate Vaccine Adjuvant: Analysis of Composition and Size Using Off-Line and In-Line Tools

Carmen Mei, Sasmit Deshmukh, James Cronin, Shuxin Cong, Daniel Chapman, Nicole Lazaris, Liliana Sampaleanu, Ulrich Schacht, Katherine Drolet-Vives, Moriam Ore, Sylvie Morin, Bruce Carpick, Matthew Balmer, etc.

Comput Struct Biotechnol J. 2019 Aug 21;17:1184-1194.

PMID: 31528298

Abstract:

Purpose:
Aluminum-based adjuvants including aluminum phosphate (AlPO4) are commonly used in many human vaccines to enhance immune response. The interaction between the antigen and adjuvant, including the physical adsorption of antigen, may play a role in vaccine immunogenicity and is a useful marker of vaccine product quality and consistency. Thus, it is important to study the physicochemical properties of AlPO4, such as particle size and chemical composition. Control of the vaccine adjuvant throughout the manufacturing process, including raw materials and the intermediate and final product stages, can be effectively achieved through monitoring of such key product attributes to help ensure product quality.
Methods:
This study focuses on the compositional analysis of AlPO4 adjuvant at the intermediate and final manufacturing stages using the off-line methods Fourier-Transform Infrared (FTIR) and Raman spectroscopy, X-ray Photoelectron Spectroscopy (XPS), and the in-line method Attenuated Total Reflectance (ATR). Particle size distribution of AlPO4 was measured off-line using Laser diffraction (LD) and in-line using Focused Beam Reflectance Measurement (FBRM®).
Results:
There was no observable difference in size distribution between the intermediate and final stage AlPO4 by off-line and in-line analysis, in both small- or large-scale production samples. Consistent peak shifts were observed in off-line and in-line infrared (IR) spectroscopy as well as off-line XPS for both small- and large-scale AlPO4 manufacturing runs. Additionally, IR spectroscopy and FBRM® for size distribution were used as in-line process analytical technology (PAT) to monitor reaction progress in real-time during small-scale AlPO4 manufacturing from raw materials. The small-scale adsorption process of a model protein antigen (Tetanus toxoid) to AlPO4 adjuvant was also monitored by in-line ReactIR probe.
Conclusion:
This study demonstrated that in-line PAT can be used to monitor particle size and chemical composition for the various stages of adjuvant manufacturing from raw materials through intermediate to final adjuvant product stage. Similar approaches can be utilized to help assess lot-to-lot consistency during adjuvant manufacturing and vaccine product development. Moreover, the use of in-line PAT is highly conductive to advanced manufacturing strategies such as real-time product release testing and automated processes of the future.

Chemicals Related in the Paper:

Catalog Number Product Name Structure CAS Number Price
AP7784307 Aluminum phosphate Aluminum phosphate 7784-30-7 Price
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