1. Preparation and evaluation of a freeze-dried oral killed cholera vaccine formulation
- Author
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Erik Nygren, Annika Borde, Anette Larsson, and Jan Holmgren
- Subjects
Lipopolysaccharides ,Cholera Toxin ,Surface Properties ,Chemistry, Pharmaceutical ,Administration, Oral ,Pharmaceutical Science ,Enzyme-Linked Immunosorbent Assay ,Biology ,Cell morphology ,medicine.disease_cause ,Microbiology ,Mice ,chemistry.chemical_compound ,Freeze-drying ,X-Ray Diffraction ,Intestine, Small ,medicine ,Animals ,Technology, Pharmaceutical ,Vibrio cholerae ,Mice, Inbred BALB C ,Calorimetry, Differential Scanning ,Immunogenicity ,Cholera toxin ,Cholera Vaccines ,General Medicine ,Antibodies, Bacterial ,Trehalose ,Virology ,Immunoglobulin A ,Freeze Drying ,Vaccines, Inactivated ,chemistry ,Microscopy, Electron, Scanning ,Mannitol ,Cholera vaccine ,Biotechnology ,medicine.drug - Abstract
Different oral liquid cholera vaccines have proved to be safe and effective, but their formulations present problems for use in low-income countries, since large package volumes have to be transported and cold chain maintenance is required. A solid state formulation would here be more advantageous, and consequently, the possibility to develop a dry cholera vaccine formulation by freeze-drying was investigated. The ability of sucrose, trehalose and mannitol to provide process stabilization during freeze-drying was tested on a formalin-killed whole-cell Vibrio cholerae model vaccine. A matrix of sucrose or trehalose prevented bacterial aggregation, preserved cell morphology and maintained practically completely the protective lipopolysaccharide (LPS) antigen on the cell surface and its reactivity with specific antibody in vitro. After reconstitution, this formulation also retained the capacity to elicit a strong serum and gut mucosal anti-LPS antibody response in orally immunized mice, as compared to the corresponding liquid vaccine formulation. The full preservation of the in vivo immunogenicity was also maintained when the internationally widely licensed oral cholera vaccine Dukoral™, which comprises a cocktail of inactivated V. cholerae together with cholera toxin B-subunit (CTB), was freeze-dried using sucrose for stabilization. Thus, we present a process generating a dry oral inactivated whole-cell cholera vaccine formulation with attractive features for public health use in cholera-afflicted settings.
- Published
- 2011