Trichinella britovi in Domestic Pig – a Case Report

Trichinellosis is a widespread parasitic disease caused by different genotypes of Trichinella. It is common in animals and can spread from its reservoir in wild animals to synanthropic animals, domestic animals and people. Different transmission patterns have been documented (Campbell 1988). They range from those in which humans do not play any role to those in which improper human behaviour is the only cause of transmission (Pozio 1998, Casulli et al. 2001). The infection pressure of the parasite biomass present in sylvatic animals and human malpractice in animal husbandry together can easily favour the transmission of Trichinella from the wild to the domestic habitat (Pozio 2001). The growing importance of sylvatic species in the persistence and re-emergence of trichinellosis in many regions was emphasized at the 10 th International Conference on Tri

Trichinellosis is a widespread parasitic disease caused by different genotypes of Trichinella. It is common in animals and can spread from its reservoir in wild animals to synanthropic animals, domestic animals and people. Different transmission patterns have been documented (Campbell 1988). They range from those in which humans do not play any role to those in which improper human behaviour is the only cause of transmission (Pozio 1998, Casulli et al. 2001. The infection pressure of the parasite biomass present in sylvatic animals and human malpractice in animal husbandry together can easily favour the transmission of Trichinella from the wild to the domestic habitat (Pozio 2001). The growing importance of sylvatic species in the persistence and re-emergence of trichinellosis in many regions was emphasized at the 10 th International Conference on Trichinellosis (Dupouy-Camet et al. 2001). Few cases of finding of Trichinella britovi in domestic pigs are known (Serrano et al. 1998). This study deals with a case of pig trichinellosis in Estonia due to Trichinella britovi and makes an attempt to elucidate the transmission patterns in the actual case. At the end of 1994 routine meat inspection diagnosed trichinellosis in 3 hogs of 8-15 months of age from the Lõpe co-operative on the island of Hiiumaa. At the beginning of 1995 trichinellosis was diagnosed in one sow of the age of one year and 8 months on the same farm. Muscle samples from 2 of these 4 pigs (pig 1-9-month-old sow and pig 2-20-month-old sow) were submitted for thorough investigation at the department of parasitology of the Estonian Agricultural University. The other 2 positive pigs had been burned already. Samples (á 10 grams, except for 5 grams from tip of the tongue) were taken from 11 different muscles (see Table 1) and first investigated by the compressor method. Larvae were collected and counted after artificial digestion of muscle samples (Miller 1977). Muscle samples (diaphragm, masseter muscle, temporal muscle and eye muscles) of a cat from the same farm were taken and investigated as well. ReNa fur-animal farm is situated only about one kilometre from the Lõpe co-operative. 20 blue foxes (Alopex lagopus) aged 1-4 years and one mink (Mustela lutreola) were investigated with regard to Trichinella. Additionally 18 brown rats (Rattus norvegicus) caught in the feed preparation unit and adjacent rooms of the same farm were investigated for Trichinella. Samples (á 5 grams) were taken from diaphragm, thigh muscles, masseter muscle and temporal muscle. The above-mentioned artificial digestion method was used in case of all investigations. Because Trichinella infection of some farm furanimals was demonstrated, an investigation of Acta vet. scand. 2002, 43,131-134.

Trichinella britovi in Domestic Pig -a Case Report
By T. Järvis 1 , I. Miller 1 and E. Pozio 2 1 Department of Parasitology, Faculty of Veterinary Medicine, Estonian Agricultural University, and 2 Laboratory of Parasitology, Instituto Superiore di Sanita, Italy.

Brief Communication
feed-briquettes was carried out to possibly identify the source of infection. The uncertified briquettes (1,5×1,0 m), imported from Sweden consisted of raw pork leavings (trotters, ears, tongue and cuttings of tissues of little value) and were used as feed for fur-animals. Samples were taken from 190 different places of the 15 briquettes. Muscle samples from some of the Trichinella positive animals: the 9-month-old sow, cat, blue foxes and rats were sent to the Trichinella Reference Centre (TRC, in Rome) by air. The vacuum-packed samples were covered with streptocide and fungicide, but not refrigerated. For identification of Trichinella genotypes the random amplified polymorphic DNA analysis (RAPD) was used following the protocol proposed by Bandi et al. (1995). The intensity of Trichinella larvae in 11 different muscle groups of each of the 2 pigs is presented in Table 1. Trichinella larvae in the muscles of pig 1 were encapsulated, and a capsule in the semimembranosus muscle was observed to be in the early stage of calcification. In muscles of pig 2 all capsules were calcified. In comparison with pigs, cat muscles were heavily infected with Trichinella larvae. There were 95 larvae per gram (LPG) in eye muscles, 90 LPG in masseter muscle, 85 LPG in temporal muscle and 80 LPG in diaphragm. The prevalence of Trichinella infection in blue foxes was 55% (11 of the 20 foxes were infected). From 2 to 19 Trichinella LPG were found. The average number of LPG in thigh muscles was 8.3, in masseter muscle 6.0, in temporal muscle 4.0 and in diaphragm 3.6. The mink was not infected. Two brown rats out of 18 were infected with Trichinella, with an average intensity of 50.0 LPG in one and 90.0 LPG in the other rat. Both infected rats were old. Larvae were not found from the muscles of 11 young rats and 5 adults.
No Trichinella larvae were found in the pork leavings briquettes. Larvae (12 LPG) from pig 1 were identified as T. britovi (TRC code ISS 333), whereas those from the blue foxes and the rats were found to be T. spiralis (TRC codes ISS 356-ISS 358 and ISS 359 respectively). Unfortunately muscle samples from the domestic cat were in a poor condition upon arrival at the Trichinella Reference Centre and no electrophoretically reproducible pattern was observed after RAPD amplification of DNA from the larvae. No data are available on Trichinella species previously found in cats. The results of the present study indicate that in domestic pigs the muscles most heavily infected with Trichinella larvae were the tongue 132  --muscle, especially the body of tongue, masseter muscle and diaphragm. Parasite distribution within a host appears to be independent of the genotype of Trichinella and predilection sites are primarily determined by host species and secondarily by the age and level of infection (Kapel 2000). Thus, in about half of the medium to light infections (0.005-59 LPG) the root of the tongue showed higher larval densities than the crus muscle of the diaphragm (Serrano et al. 1999). The calcification of all Trichinella capsules in pig 2 indicates that the infection was acquired long before slaughter. In Estonia, this was the first case of finding T. britovi in domestic pig and the second case of trichinellosis in domestic pig. The first case of trichinellosis was diagnosed in one hog from Haldreka co-operative, about 30 km from the Lõpe co-operative in Hiiumaa in 1994, but the species of Trichinella was not determined. The third case occurred in 1999, when a domestic pig from a private farm on the mainland (Järvamaa County) was infected with T. spiralis. ReNa fur-animal farm is situated only about one kilometre from the Lõpe co-operative. The prevalence of Trichinella infection found in blue foxes was high, but the intensity of infection was low. Only 11% of rats were infected, but they had a relatively high infection rate (up to 90 LPG). The infection agent both in blue foxes and rats was identified as T. spiralis. During the flaying period at the ReNa farm, pigs in the Lõpe co-operative were fed with boiled fox carcasses. Because T. spiralis was registered in blue foxes and rats on Hiiumaa and T. britovi was surprisingly found in domestic pig, it seems that in this case the skinned carcasses of blue foxes from the nearby farm were not likely the source of infection for pigs. We have found T. britovi in 2 raccoon dogs (Nyctereutes procyonoides) and one red fox (Vulpes vulpes) on the island of Hiiumaa . This sylvatic species of Trichinella is considered poorly infective for swine (Kapel & Gamble 2000, Murrell & Brushi 1994. Hunters frequently offer carcasses of red foxes and other game animals for pig feed but such feed is usually cooked. However, unboiled (undercooked) carcasses used as pig feed might have caused the T. britovi infection of swine in Lõpe co-operative. So far we have identified T. spiralis and T. britovi on the island of Hiiumaa. The distance between this island and the mainland is about 20 kilometres. Nonetheless, during wintertime the sea between the mainland and the island is frozen and does not represent a barrier for terrestrial mammals. Furthermore, it is easy for carnivorous and omnivorous hosts to "visit" Hiiumaa from the island of Saaremaa, as the shortest distance between the islands is only 6 kilometres. High infection prevalence of Trichinella is registered in wolves, lynxes, raccoon dogs and red foxes in Estonia (Järvis et al. 2000).
In big slaughterhouses all pigs are investigated for Trichinella using artificial digestion method. In 2000 all 193462 pigs slaughtered were Trichinella negative. At the same time in small abattoirs the less sensitive compressor method is still allowed. Thus it is possible that light infection is not noticed and Trichinella may spread. Since all genotypes of Trichinella pose a threat to human beings, every case of trichinellosis in pigs should be thoroughly investigated. Nevertheless, to the best of our knowledge the main source of Trichinella infection for humans in Estonia is game meat, which has not been controlled for Trichinella.
In the present case the source of pig infection with T. britovi was not identified, despite the investigation of some of the possible routes of transmission via rats and fur-animals from a nearby farm. These were found to carry only T. spiralis infection.