Efficacy of Infectious Bronchitis GI-13 (793B) Vaccine Candidate Tested According to the Current European Union Requirements and for Cross-Protection Against Heterologous QX-Like Challenge.

Infectious bronchitis (IB) is a highly contagious viral disease of chickens, known to cause severe economic losses. Vaccination against IB virus (IBV) is an important control measure against the disease. The objective of the present study was to test Avishield IB GI-13, the vaccine candidate against IBV, strain V-173/11 (GI-13 genotype), according to European Pharmacopoeia (Ph. Eur.) efficacy requirements. Laboratory study on specific-pathogen-free (SPF) chickens showed 100% protection against challenge 10 days after vaccination of 1-7 day-old chickens by three recommended routes. Duration of immunity was shown to be at least 8 weeks after vaccination. Chickens with maternally derived antibodies (MDA) were 100% protected against challenge 21 and 35 days after vaccination. Testing of the vaccine candidate in field conditions on commercial broiler and layer farms showed 80-90% protection against homologous challenge after spray (broilers and layers) or oral (broilers) vaccine administration. Serum antibodies were monitored during the studies, and although good seroconversion was observed in MDA-positive chickens 34 days after vaccination or later, the data from SPF chickens indicate that non-humoral immunity is important in protection against challenge. Neutralizing antibodies in tears were detected, however, their level could not be fully linked with individual protection scores. A cross-protection study showed that administration of the combination of Avishield IB H120 vaccine and Avishield IB GI-13 vaccine candidate at day 1, confers good protection against heterologous QX-like challenge. Stability of the vaccine after reconstitution in 0.2% skimmed milk solution or distilled water at room temperature was confirmed over the period of 3 h. The vaccine candidate fully complied with Ph. Eur. requirements, with very good protection levels, indicating that it can be administered already at 1 day of age by spray at the hatchery or at 7 days of age by drinking water on the farm.

Stability of Minimum Essential Medium functionality despite L-glutamine decomposition.

L-Glutamine (L-Gln) instability in liquid media is a well-known fact. Also, negative effect of ammonia, one of the L-Gln degradation products, on viability of many cell cultures and on replication of different viruses has been described. However, negative effects of ammonia have been reported in doses excessively exceeding those that could be generated in regularly used liquid culture media due to spontaneous L-Gln breakdown (below 2 mM). Traditional virus vaccine production processes have been established and registered involving L-Gln containing media use. Eventual culture media replacement in the regular production process belongs to the major regulative changes that require substantial financial expenses. The aim of this study was to evaluate the effect of storage of Minimum Essential Media with Hanks salts on their relevant biological functions during virus vaccine production process in relation to L-Gln decrease. Our results show a cell type dependent effect of spontaneous L-Gln degradation during medium storage. They also suggest that for cell cultures used in measles, mumps, and rubella virus production the media retain their functionality in respect to cell viability or virus growth over a certain time window despite L-Gln degradation.

Robustness testing of live attenuated rubella vaccine potency assay using fractional factorial design of experiments.

The potency assay for the freeze-dried live attenuated rubella vaccine is a cell culture based biological assay. The aim of our study was to perform the robustness testing of the rubella vaccine potency assay prior to validation. Seven intra-assay operating conditions that could have an effect on the assay performance were identified and their influence on the overall assay variability investigated by fractional factorial design of experiments (DoE). The robustness testing through DoE showed that the rubella vaccine potency assay is a robust assay. Critical operating conditions can be identified using DoE, which indicates that it is a suitable approach in bioassay robustness studies.