Adsorption onto aluminum hydroxide adjuvant protects antigens from degradation.

Aluminum based adjuvants are widely used in commercial vaccines, since they are known to be safe and effective with a variety of antigens. The effect of antigen adsorption onto Aluminum Hydroxide is a complex area, since several mechanisms are involved simultaneously, whose impact is both antigen and formulation conditions dependent. Moreover, the mode of action of Aluminum Hydroxide is itself complex, with many mechanisms operating simultaneously.

Multiplex immunoassay for in vitro characterization of acellular pertussis antigens in combination vaccines.

Vaccines characterization is required to ensure physical, chemical, and biological integrity of antigens and adjuvants. Current analytical methods mostly require complete antigen desorption from aluminum-based adjuvants and are not always suitable to distinguish individual antigens in multivalent formulations. Here, Luminex technology is proposed to improve the analytics of vaccine characterization.

The development of self-emulsifying oil-in-water emulsion adjuvant and an evaluation of the impact of droplet size on performance.

Microfluidization is an established technique for preparing emulsion adjuvant formulations for use in vaccines. Although this technique reproducibly yields high-quality stable emulsions, it is complex, expensive, and requires proprietary equipment. For this study, we developed a novel and simple low shear process to prepare stable reproducible emulsions without the use of any proprietary equipment.

MF59 oil-in-water emulsion in combination with a synthetic TLR4 agonist (E6020) is a potent adjuvant for a combination Meningococcus vaccine.

The inclusion of a potent TLR4 immune potentiator to a recombinant antigen vaccine formulation enhances both the magnitude and the breadth of the engendered immune response. One such immune potentiator (TLR4 agonist E6020) was evaluated with recombinant Men B antigens delivered in MF59 sub-micron adjuvant emulsion. The ability of this formulation to enhance serum antibody and bactercidal titers was investigated.

Flow cytometry: an alternative method for direct quantification of antigens adsorbed to aluminum hydroxide adjuvant.

Flow cytometry (FC) has been widely used in biological research; however, its use for vaccine characterization has been very limited. Here we describe the development of an FC method for the direct quantification of two Neisseria meningitidis vaccine antigens, in mono- and multivalent formulations, while still adsorbed on aluminum hydroxide (AH) suspension. The antibody-based method is specific and sensitive.