Objectives.To determine the natural crustacean host,the Paragonimus species,and to investigate the potential host-parasite relationship between Manipur Paragonimus and some of the laboratory animals.Methods. The labor...Objectives.To determine the natural crustacean host,the Paragonimus species,and to investigate the potential host-parasite relationship between Manipur Paragonimus and some of the laboratory animals.Methods. The laboratory animals such as puppies,albino rats and Swiss mice were infected orally with metacercariae isolated from the fresh water crabs,Potamiscus manipurensis. The fecal specimens of the experimentally infected animals were examined microscopically for Paragonimus eggs at regular intervals. The animals were autopsied on days 35~328 after infection and the isolated worms were flattened between glass slides and fixed in 70% alcohol. The worms were stained with carmine and mounted with Canada balsam for morphological studies. The eggs were collected in 5% formol saline solution for microscopy. The flukes were classified into 4 developmental stages.Results. A total of 11 worms,5 mature,5 immature and 1 pre-adult were recovered. The morphological features of the metacercariae,worms and eggs were similar to those of Paragonimus heterotremus.Conclusion. Manipur is one of the rare areas in the world where Paragonimus heterotremus is prevalent and the puppies are ideal experimental animal host. This species may be one of the important causes of paragonimiasis in animals and humans in Manipur.展开更多
基金This study was supported by the grants from the Indian Council of Medical Research.
文摘Objectives.To determine the natural crustacean host,the Paragonimus species,and to investigate the potential host-parasite relationship between Manipur Paragonimus and some of the laboratory animals.Methods. The laboratory animals such as puppies,albino rats and Swiss mice were infected orally with metacercariae isolated from the fresh water crabs,Potamiscus manipurensis. The fecal specimens of the experimentally infected animals were examined microscopically for Paragonimus eggs at regular intervals. The animals were autopsied on days 35~328 after infection and the isolated worms were flattened between glass slides and fixed in 70% alcohol. The worms were stained with carmine and mounted with Canada balsam for morphological studies. The eggs were collected in 5% formol saline solution for microscopy. The flukes were classified into 4 developmental stages.Results. A total of 11 worms,5 mature,5 immature and 1 pre-adult were recovered. The morphological features of the metacercariae,worms and eggs were similar to those of Paragonimus heterotremus.Conclusion. Manipur is one of the rare areas in the world where Paragonimus heterotremus is prevalent and the puppies are ideal experimental animal host. This species may be one of the important causes of paragonimiasis in animals and humans in Manipur.
