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Liver Pathology Associated With Natural Infection of Schistosoma Incognitum in Slaughtered Pigs

Menaka Sethi Tareni Das Jeny K John Sreelekshmy Mohandas Partha Sarathi Banerjee Rajendra Singh Guttula Saikumar
Vol 8(9), 354-358
DOI- http://dx.doi.org/10.5455/ijlr.20180208115936

Schistosomiasis is a wide-spread chronic helminthic infec¬tion which contributes to death of over half a million people yearly. It is a significant cause of morbidity and mortality. Pork is the world’s most consumed meat. Liver the rich source of protein and is edible offal. The present study was conducted to study liver pathology and diagnosis of causative agents associated with the lesions in slaughtered house collected samples. During the study period, (100) liver samples showing gross pathological alterations were collected from pigs slaughtered in Bareilly, UP. The samples were fixed in 10% buffered neutral formalin and processed for histopathological examination. Out of 100 liver samples, Schistosoma incognitum was detected in 5 liver tissue sections. Histopathological examination revealed granuloma of liver which consists of epithelioid cells, macrophages, giant cells, eosinophils, lymphocytes and plasma cells with (and) small lymphoid nodules. On Masson’s trichrome staining, fibrous tissue proliferation was demonstrated in periductal region around egg and adult male of Schistosoma incognitum. The Schistosoma species was identified by observing typical short stout sub terminal spine in eggs found in the liver granuloma.


Keywords : Granuloma Liver Pigs Schistosoma incognitum

Schistosomiasis   caused by the trematode Schistosoma sp., is an important zoonotic disease of mammals, affecting people and domestic as well as wild animals in endemic areas in Asia, mainly in the People’s Republic of China, the Philippines and Indonesia (Collins et al., 2012). Livestock, such as water buffaloes, cattle, and pigs are all naturally infected by Schistosoma sp. and are considered to be important reservoir hosts for human infection in endemic areas (Yuan et al., 1993). In India seven different species of schistsoma namely Schistosoma indicum, S. spindalis, S. bomfordi, S. incognitum (Chandler, 1926), S. nasalis, S. nairi and Orientobilharzia dattai are known to occur.

World Health Organization (WHO) considers schistosomiasis as the second only to malaria in socioeconomic importance worldwide and the third more frequent parasitic disease of  public health importance   (Sarvel et al., 2011). In India, dogs, pigs and sheep were the only reported natural hosts of S. incognitum (Rao and Ayyar, 1933; Dutt and Srivastava, 1963), but experimentally, a wide range of mammals (Sinha and Srivastava, 1965) and pigs (Ahluwalia et al., 1972) can be affected. Confirmed infection of S. incognitum had been reported from two human cases by Chandle, (1926). Detection of S. incognitum (19.12%), B. coli (15.60%) and Fasciolopsis buski (15.16%) in pig is an alarming situation as the pig faeces could be an important source for parasites to infect human beings (Singh et al., 2017). In rural areas the pigs are housed near to human dwellings and the close association between pigs, dogs and humans can increase the risk of getting Schistosoma infection. The zoonotic potential of S. incognitum had been observed   in dogs which were used for hunting aquatic birds (Khuddus et al., 1971) and 3.9% of dogs were found excreting S. incognitum eggs in their stools posing risk to human population (Bunnag et al., 1983). The main target organs of S. incognitum in the pig are the same as those in man, the liver, the intestine and adult parasite may also occur in the lungs and can produce granulomatous reactions (Kumar, 2013). Intensity of schisto­somal infection is related to the degree of liver fibrosis and granulomatous reaction and the number of granulomas is correlated with the severity of the disease (Mohsin et al., 2011).  In the present study we report the pathology and diagnosis schistosomiasis in slaughtered   pigs.

Case Descriptions and Methods

A total of 100 livers of pigs showing gross pathological alterations were collected in 10% neutral buffered formalin (NBF) from slaughterhouses in Bareilly, UP. The collected samples were processed for histopathological examination as per method described by Luna. Masson’s trichrome staining to detect fibrous tissue proliferation in the granulomatous areas. Schistosoma species was identified by observing the typical characteristics of eggs of S. incognitum in tissues sections.

Result and Discussion

Out of 100 liver specimens of slaughtered pigs examined, 5 were found positive for schistosomiasis. Grossly liver was firm with presence of diffuse gray to white nodules in the hepatic   parenchyma. Histological sections of liver showed typical granulomas consisting of variable combinations of eosinophils, epithelioid macrophages, giant cells, plasma cells, lymphocytes and occasional infiltration of mononuclear cells around schistosoma egg in the portal areas (Fig. 1). Bluish-gray discoloration of the liver and egg granulomas in portal triads of the liver, lungs, spleen, intestines, pancreas and mesenteric lymph nodes has been observed in experimental infection of Schistosoma japonicum in pigs (Yason et al., 1984, Baddamwar et al., 2004). The key event in Schistosoma  infection is the formation of granulomas around eggs trapped in the portal venules of the liver tissue (Mathew  et al., 1986) and the eggs release a variety of substances, lead­ing to antigen-specific humoral and cell-mediated immune re­sponses which is a complex pathophysiological cascade event which terminates in fibrosis and portal hypertension  (Ghanem et al., 2010). Fibrosed hepatic parenchyma with biliary hyperplasia surrounding the normal hepatic tissues was found at the periportal region (Fig.2).

Fig.1: Schistosoma granuloma in liver, H&E, 400X. Fig. 2: Biliary hyperplasia with fibrosis of periportal region, H&E, 100x.

Disorganisation of hepatic lobules were also seen. In some portions of liver sections, degenerative changes with haemorrhages were also observed. Fibrous connective tissue was demonstrated in tissue sections of liver by Masson’s trichrome staining in portal triad areas surrounding the adult male and eggs of S. incognitum (Fig. 3 and Fig. 4). The  eggs of S. incognitum was characterized by  sub oval, with one side having slightly less curvature and a short stout sub-terminal spine (Fig.5) as by  Carney et al., 1977.

Fig. 3: Fibrous tissue proliferation demonstrated as blue areas around egg of S. incognitum, Masson’s Trichrome staining, 400X. Fig. 4: Fibrous tissue proliferation demonstrated as blue areas around adult male of S. incognitum, Masson’s Trichrome staining, 400x.

 

Fig.5: Eggs of S. incognitum was characterized by sub oval, with one side having slightly less curvature and a short stout sub-terminal spine, Masson’s Trichrome staining, 1000X

Conclusion

In conclusion, the cases were diagnosed as S. incognitum schistosomiasis by observing typical granuloma in histopathological sections of liver and also from the typical characteristics of the eggs present in the granuloma.

Acknowledgments

The authors gratefully acknowledge and thank Indian Council of Agricultural Research (ICAR) and Indian Council of Medical Research (ICMR), Govt. of India, for supporting the study in terms of funds and facilities.

Conflict of Interest:  None

References

  1. AhluwaliaSS (1972). Experimental Schistosomiasis incognitum in pigs.  Indian Journal of Animal Science. 42: 723–729.
  2. Baddamwar A. (2004). Hepatic fibrosis in experimental Schistosoma ja­ponicum infection in pigs: a histopathological and immunohis­tochemical study. Swedish University of Agricultural Sciences, Uppsala, Sweden. Report no. 46. ISSN; 1403-2201.
  3. Bunnag T, Thirachandra S, Impand P, Vorasanta P and  Imlarp S. (1983). Schistosoma incognitum and its zoonotic potential role in Phitsanulok and Phichit provinces, northern Thailand. The Southeast Asian Journal of Tropical Medicine and Public Health. 14(2):163-70.
  4. Carney WP, Purnomo, Vax Peenen PFD, Brown RJ and Sudomo M.(1977). Schistosoma incognitum from Mammals of Central Sulawesi, Indonesia. Proceedings of Helminthoogical Society of Washington, 150-155.
  5. Chandler AC (1926). A new schistosome infection of man with note on other human fluke infection in Indian Journal of Medical Research. 14: 179–183.
  6. Collins C, Xu J and Tang S. (2012). Schistosomiasis control and the health system in P.R. China. Infectious Disease of Poverty.1:8. 10.1186/2049-9957-1-8.
  7. Dutt SC and Srivastav HD. (1963). Incidence of schistosome infections in sheep. Proceedings of 50th Indian Science Congress Ill: 500.
  8. Ghanem LY, Dahmen U, Dirsch O, Nosseir MM, Mahmoud SS and Mansour WA. (2010). Does granulocyte-colony stimulating factor ad­ministration induce damage or repair response in schistosomia­sis? World Journal of Hepatology. 2: 434-441.
  9. Khuddus CA and Rao NSK.(1971). Occurrence of two parasites of zoonotic interest in local dogs. Mysore Journal of Agricultural Science. 5:214 216.
  10. Kumar V. (2013). icognitum schistosomiasis. In: Trematodes infections and disease of man and animals. USA, KLUWER Academic Publishers.
  11. Luna LG.(1968). Manual of histoogical staining methods of the Armed Forces Institute of pathology .3rd edition. New York, Mc Graw Hill Book Company.
  12. Mathew RC and Boros DL. (1986). Regulation of granulomatous inflamma­tion in murine schistosomiasis. III. Recruitment of antigen-spe­cific I-J+ T suppressor cell of the granulomatous response by I-J+ soluble suppressor factor. Journal of Immunology. 136: 1093-1097.
  13. Mohsin S, Shams S, Ali Nasir G, Khan M, Javaid AS, Khan SN and  Riazuddin S. (2011). Enhanced hepatic differentiation of mesenchy­mal stem cells after pretreatment with injured liver tissue. Differ­entiation.  81: 42-48.
  14. Rao MAN and Ayyar LSP. (1933). Schistosoma suis sp. A schistosome found in pigs in Madras. Indian Journal of Veterinary Science and Animal Husbandry. 3: 321-324.
  15. Sarvel AK, Oliveira AA, Silva AR, Lima AC and Katz N. (2011). Evaluation of a 25-year-program for the control of schistosomiasis mansoni in an endemic area in Brazil. PLoS Neglected Tropical   5:990.
  16. Singh AK, Das G, Nath S,  Kumar S,  Naresh R and  Agrawal V.(2017). Prevalence of gastrointestinal parasitic infections in pig in and around Jabalpur, Madhya Pradesh, India .Indian Veterinary Journal. 94 (03): 17 – 19.
  17. Sinha PK and Srivastava HD.  (1956). Studies on Schistosoma incognitum Chandler, (1926). In: On the synonymy and morphology of the blood-fluke. Journal of Parasitology. 46: 91-100.
  18. Willingham AL, Johansen MV, Vennervald BJ, Christensen NØ and Nansen P. (1994). Experimental infection of Danish Landrace/Yorkshire crossbred pigs with Schistosoma japonicum from the People’s Republic of China. Acta Veterinaria  Scandinavica. 35: 395–400.
  19. Yason CV and Novilla MN. (1984). Clinical and pathological features of experimental Schistosoma japonicum infection in pigs. Veterinary Parasitology.  17: 47–64.
  20. Yuan HC. (1993). Epidemiological features and control strategies of Schistosoma japonicum in China. Chinese Medical Journal. 106: 563– 568.
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