Echinostoma revolutum

Echinostoma revolutum
Two specimens of Echinostoma revolutum, from:[1]
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Platyhelminthes
Class: Trematoda
Order: Plagiorchiida
Family: Echinostomatidae
Genus: Echinostoma
Species:
E. revolutum
Binomial name
Echinostoma revolutum
(Fröhlich, 1802) Looss, 1899
Synonyms[2]
  • E. armatum Barker & Irvine, 1915
  • E. audyi Lie & Umathevy, 1965
  • E. columbae Zunker, 1925
  • E. dilatatum (Miram, 1940) Cobbold, 1860
  • E. echinocephalum (Rudolphi, 1819) Cobbold, 1860
  • E. erraticum Lutz, 1924
  • E. ivaniosi Mahandas, 1973
  • E. limicoli Johnson, 1920
  • E. mendax Dietz, 1909
  • E. microrchis Lutz, 1924
  • E. neglectum Lutz, 1924
  • E. nephrocystis Lutz, 1924
  • E. oxycephalum (Rudolphi, 1819) Railliet, 1896
  • E. revolutum tenuicollis Bashikirova, 1941
  • E. revolutum var. japonicum Kurisu, 1932
  • E. stromi Bashikirova, 1946
  • E. sudanense Odhner, 1910

Echinostoma revolutum is a trematode parasite of which the adults can infect birds and mammals, including humans. In humans, it causes echinostomiasis.[1]

Distribution

Echinostoma revolutum is the most widely distributed species of the known 20 Echinostomatidae species; it is found in Asia, Oceania, Europe, and the Americas.[3] In Asian countries the disease is endemic to humans. Outbreaks have been reported in North America after travellers returned from Kenya and Tanzania.[4]

Description

See also: Echinostoma § Morphology

The worms are leaflike, elongated, and an average of 8.8 mm long (8.0–9.5 mm) and 1.7 mm wide (1.2–2.1 mm). When first passed in the feces, they were pinkish red and coiled in a "c" or "e" shape. The eggs in uteri were an average of 105 μm long (97–117 μm) and 63 μm wide (61–65 μm).[1]

Life cycle

See also: Echinostoma § Echinostoma#Life_cycle
Cercariae of Echinostoma revolutum from snails

Infection of Echinostoma revolutum usually results from ingestion of raw snails or frogs that serve as an intermediate host. This parasite is predominantly found throughout North America. Two asexual generations occur in a snail or mollusc.[5] The first snail host is penetrated by a miracidium, producing a sporocyst. Many sporocysts are produced and mother rediae emerge. Mother rediae asexually reproduce daughter rediae, which also multiply. Each rediae then develop into a cercariae, which penetrates a second host. The second host could be another snail or a tadpole, in which development into metacercaria occurs. Cercariae typically find a snail host through chemotaxis. The cercariae are attracted to the slime of the snail, which contains small peptides. The first larval stage is the miracidium, and are found to be attracted to macromolecular glycoconjugates associated with a possible snail host. Environmental stimuli such as light and gravity can also be used to assist in searching for a host.[citation needed]

Intermediate hosts

Intermediate hosts of Echinostoma revolutum include:

In humans

Prevalence

The prevalence of Echinostoma revolutum trematodes in Taiwan, from the first reported human infection in 1929[10] through 1979, varied from 0.11% to 0.65%.[11] Small clusters and individual cases of human infection were discovered in the People's Republic of China, Indonesia, and Thailand until 1994,[12][13] after which no data is available.[1] In 2007 a fecal survey in 4 primary schools in Pursat Province, Cambodia found an infection rate amongst students to be between 7.5% to 22.4%.[1]

In Pursat Province, Cambodia, children eating undercooked snails or clams were identified as a possible source of infection in humans.[1]

Symptoms

Main article: Echinostomiasis

Signs of infection in humans due to this type of fluke can result to weakness and emaciation. In cases where infection is heavy, hemorrhagic enteritis can occur.[citation needed]

Diagnosis

This section is an excerpt from Echinostoma § Diagnosis.[]
Micrograph of an unstained Echinostoma egg
Unstained Echinostoma egg.

An Echinostoma infection can be diagnosed by observing the parasite eggs in the faeces of an infected individual, under a microscope. Methods such as the Kato-Katz procedure can be used to do this.[14] The eggs typically have a yellow-brown appearance, and are ellipsoid in shape.[15] To confirm which species is causing the infection adult worms must be recovered from the infected individual, such as with anthelmintic treatment.[15]

Prevention

This section is transcluded from Echinostoma. ( | history)

Echinostomiasis can be controlled at the same time as other food-borne parasite infections, using existing control programmes.[16] Interrupting the parasite's lifecycle by efficient diagnosis and subsequent treatment of infected individuals, and preventing reinfection, may help to control this disease.[17] As echinostomiasis is acquired through the consumption of raw or undercooked infected food, cooking food thoroughly will prevent infection.[18]

Treatment

Praziquantel is typically prescribed to rid the parasite from the body.[19] Alternatively, mebandazole has been used to treat echinostomiasis. Albendazole has been reported to show effective results although without details on the dosage and cure rates. [20]

References

  1. ^ a b c d e f g h i Sohn, Woon-Mok; Chai, Jong-Yil; Yong, Tai-Soon; Eom, Keeseon S.; Yoon, Cheong-Ha; Sinuon, Muth; Socheat, Duong; Lee, Soon-Hyung (2011). "Echinostoma revolutumInfection in Children, Pursat Province, Cambodia". Emerging Infectious Diseases. 17 (1): 117–9. doi:10.3201/eid1701.100920. PMC 3204640. PMID 21192870..
  2. ^ Chai, Jong-Yil; Cho, Jaeeun; Chang, Taehee; Jung, Bong-Kwang; Sohn, Woon-Mok (2020). "Taxonomy of Echinostoma revolutum and 37-collar-spined Echinostoma spp.: A historical review". The Korean Journal of Parasitology. 58 (4): 343–371. doi:10.3347/kjp.2020.58.4.343. PMC 7462802. PMID 32871630.
  3. ^ Chai, Jong-Yil (2009). "Echinostomes in humans". The Biology of Echinostomes. Springer New York. pp. 147–183. doi:10.1007/978-0-387-09577-6_7. ISBN 978-0-387-09576-9.
  4. ^ Poland, Gregory A.; Navin, Thomas R.; Sarosi, George A. (1985). "Outbreak of parasitic gastroenteritis among travelers returning from Africa". Archives of Internal Medicine. 145 (12): 2220–2221. doi:10.1001/archinte.1985.00360120092015. PMID 4074036.
  5. ^ Pantoja, Camila; Faltýnková, Anna; O’Dwyer, Katie; Jouet, Damien; Skírnisson, Karl; Kudlai, Olena (2021). "Diversity of echinostomes (Digenea: Echinostomatidae) in their snail hosts at high latitudes". Parasite. 28: 59. doi:10.1051/parasite/2021054. ISSN 1776-1042. PMC 8336728. PMID 34319230.
  6. ^ a b c d e f g Chantima, Kittichai; Chai, Jong-Yil; Wongsawad, Chalobol (2013). "Echinostoma revolutum: Freshwater snails as the second intermediate hosts in Chiang Mai, Thailand". The Korean Journal of Parasitology. 51 (2): 183–189. doi:10.3347/kjp.2013.51.2.183. PMC 3662061. PMID 23710085.
  7. ^ Chai, Jong-Yil; Sohn, Woon-Mok; Na, Byoung-Kuk; Van De, Nguyen (2011). "Echinostoma revolutum : Metacercariae in Filopaludina snails from Nam Dinh Province, Vietnam, and adults from experimental hamsters". The Korean Journal of Parasitology. 49 (4): 449–455. doi:10.3347/kjp.2011.49.4.449. PMC 3279689. PMID 22355218. S2CID 29211176.
  8. ^ Soldanova, Miroslava; Selbach, Christian; Sures, Bernd; Kostadinova, Aneta; Perez-Del-Olmo, Ana (2010). "Larval trematode communities in Radix auricularia and Lymnaea stagnalis in a reservoir system of the Ruhr River". Parasites & Vectors. 3 56. doi:10.1186/1756-3305-3-56. PMC 2910012. PMID 20576146.
  9. ^ "Echinostomum revolutum (Parasite Species Summary)". Archived from the original on 2011-07-23. Retrieved 2008-10-22. accessed 22 October 2008
  10. ^ Anazawa, K (1929). "On a human case of Echinostoma revolutum and its infection route [Japanese]". Taiwan Igakkai Zasshi (Journal of the Medical Association of Formosa) (288): 221–241.
  11. ^ Lu SC (June 1982). "Echinostomiasis in Taiwan". Int J Zoonoses. 9 (1): 33–8. PMID 7174232.
  12. ^ Radomyos P, Radomyos B, Tungtrongchitr A (June 1994). "Multi-infection with helminths in adults from northeast Thailand as determined by post-treatment fecal examination of adult worms". Trop Med Parasitol. 45 (2): 133–5. PMID 7939164.
  13. ^ Yu, Sen-Hai; Mott, K.E. (1994). "Epidemiology and morbidity of food-borne intestinal trematode infections 91:R125–52" (PDF). Tropical Disease Bulletin.
  14. ^ Toledo R; Esteban JG; Fried B (1995). "Current status of food-borne trematode infections". European Journal of Clinical Microbiology and Infectious Diseases. 31 (8): 1705–1718. doi:10.1007/s10096-011-1515-4.
  15. ^ a b Carney WP (1991). "Echinostomiasis - a snail-borne intestinal trematode zoonosis". Southeast Asian Journal of Tropical Medicine and Public Health. 22: Suppl:206–211.
  16. ^ Fried B; Graczyk TK; Tamang L (2004). "Food-borne intestinal trematodiases in humans". Parasitology Research. 93 (2): 159–170. doi:10.1007/s00436-004-1112-x. PMID 15103556.
  17. ^ Graczyk TK, Fried B (1998). "Echinostomiasis: a common but forgotten food-borne disease". The American Journal of Tropical Medicine and Hygiene. 58 (4): 501–504. doi:10.4269/ajtmh.1998.58.501.
  18. ^ Toledo, R.; Esteban, J. G. (2016-01-01). "An update on human echinostomiasis". Transactions of the Royal Society of Tropical Medicine and Hygiene. 110 (1): 37–45. doi:10.1093/trstmh/trv099. ISSN 0035-9203. PMID 26740361.
  19. ^ Toledo R; Esteban JG; Fried B (1995). "Current status of food-borne trematode infections". European Journal of Clinical Microbiology and Infectious Diseases. 31 (8): 1705–1718. doi:10.1007/s10096-011-1515-4.
  20. ^ Toledo, R.; Esteban, J. G. (2016-01-01). "An update on human echinostomiasis". Transactions of the Royal Society of Tropical Medicine and Hygiene. 110 (1): 37–45. doi:10.1093/trstmh/trv099. ISSN 0035-9203. PMID 26740361.

Further reading

Kelly, Cynthia (2009). "Echinostoma revolutum". Archived from the original on 13 August 2007. Retrieved 2017-02-17.

allikas: https://en.wikipedia.org/wiki/Echinostoma_revolutum