Echinococcus granulosus:An Intraperitoneal Diffusion Chamber Model of Secondary Infection in Mice

Breijo, M., Spinelli, P., Sim, R.B., and Ferreira, A. M. 1998.Echinococcus granulosus:An intraperitoneal diffusion chamber model of secondary infection in mice.Experimental Parasitology90, 270–276. The present work describes a new experimental model of secondary infection which allows, through the recovery of the parasite together with its localin vivoenvironment, examination of the local nonadaptive immune response of the infected host and the differentiation of the parasite from protoscoleces to cysts. In this model we administered protoscoleces within silicone diffusion chambers, previously implanted into the peritoneal cavities of mice. The process of designing the model involved, first, determination of the optimal time postimplantation to infect the mice and, second, evaluation of the parasite's ability to establish infection within the chambers. The optimal time for infection was considered to be after the inflammation caused by implantation of the chambers had subsided. Our results showed that by day 20 postsurgery, three parameters used as indications of inflammation (complement C3, serum amyloid P protein, and polymorphonuclear cells in the peritoneum and in the chamber contents) had reverted to their normal levels. In our study of parasite differentiation, we found that 2–3% of the total number of parasites inoculated into the chambers were recovered as viable cysts after 100 days. Throughout the infection period, the population of parasites recovered was heterogeneous; certain parasite morphologies that have not been described previously were observed. In conclusion, the use of intraperitoneal diffusion chambers offers a potential tool for investigating thein vivodifferentiation process of secondary cysts ofEchinococcus granulosusin mice and the early local interactions between host and parasite during this process.