Avian coccidiosis: a disturbed host-parasite relationship to be restored.

The co-evolution of Eimeria and its host the domestic chicken has resulted in a delicate balance of mutual understanding and respect. This balance has been broken by the complete change of the environment in which the parasite was able to reproduce to such an extent that the host, stressed and weakened by heat, crowding and concurrent infections could not combat the shear numbers of organisms. The use of drugs to control the situation has been shown to only temporarily create relief. Resistance widely developed by the flexible genome of the parasite returned new drugs at a greater speed than they had been developed. Improved hygienic measures, better facility management and good understanding of epidemiology of the parasites spreading and proliferation seem the first and most promising set of tools to control the balance. Reduction of stock density may only provide any relief if this is done at a factor of 10 or higher and this is not a realistic measure in relation to the profit. Free-range chickens are an alternative if only animal welfare is at stake. However, in terms of prevalence of parasitic infections, such as coccidia, helminthes or ectoparasites, chickens do not seem to be better off (Permin et al., 2002). Immunological surveillance and the development of safe, effective and economical vaccines are further refinements that can be used to restore the relationship between parasite and host. Several live vaccines are effective and applied, but certainly have drawbacks in safety and production. New technology such as recombinant vectors together with a better understanding of the cell biology of the parasite from biological and genomic information should provide improved vaccines for the future. The strong genetically determined characteristics involved in the induction and maintenance of a sustainable protective immune response might turn out to be of decisive importance for the success of these strategies. The consequences for the physiology of the parasite remain to be understood.