Ancylostoma duodenale

Ancylostoma duodenale is a species of the roundworm genus Ancylostoma. It is a parasitic nematode worm and commonly known as the Old World hookworm. It lives in the small intestine of hosts such as humans, cats and dogs, where it is able to mate and mature. Ancylostoma duodenale and Necator americanus are the two human hookworm species that are normally discussed together as the cause of hookworm infection. They are dioecious.[1] Ancylostoma duodenale is abundant throughout the world, including Southern Europe, North Africa, India, China, southeast Asia, some areas in the United States, the Caribbean, and South America.

Ancylostoma duodenale
Scientific classification
Kingdom: Animalia
Phylum: Nematoda
Class: Chromadorea
Order: Rhabditida
Family: Ancylostomatidae
Genus: Ancylostoma
Species:
A. duodenale
Binomial name
Ancylostoma duodenale
(Dubini, 1843)

Characteristics

A. duodenale is small, cylindrical worm, greyish-white in color. It has two ventral plates on the anterior margin of the buccal capsule. Each of them has two large teeth that are fused at their bases. A pair of small teeth can be found in the depths of the buccal capsule. Males are 8–11 mm long with a copulatory bursa at the posterior end. Females are 10–13 mm long, with the vulva located at the posterior end; females can lay 10,000 to 30,000 eggs per day. The average lifespan of a female A. duodenale is one year.[2]

Lifecycle

After a filariform "infective" larva penetrates the intact skin – most commonly through the feet – the larva enters the blood circulation. It is then carried to the lungs, breaks into alveoli, ascends the bronchi and trachea, and is coughed up and swallowed back into the small intestine, where it matures. The larva later matures into an adult in the small intestine (jejunum mainly), where they attach to the villi and female worms can lay 25,000 eggs per day. The eggs are released into the feces and reside on soil; when deposited on warm, moist soil, a larva rapidly develops in the egg and hatches after 1 to 2 days. This rhabditiform larva moults twice in the soil and becomes a skin-penetrating third-stage infective larva within 5–10 days. The infective rhabditiform larvae are able to sense vibrations in the soil, heat, or carbon dioxide, and are able to use dendritic processes similar to cilia. They use these processes as thermosensory, chemosensory, and mechanosensory receptors to migrate towards a host for infection.[2] The rhabditiform larvae can then penetrate the exposed skin of another organism and begin a new cycle of infection.

Epidemiology

A. duodenale is prevalent in Southern Europe, North Africa, India, China, Southeast Asia, small areas of United States, the Caribbean islands, and South America. This hookworm is well known in mines because of the consistency in temperature and humidity that provides an ideal habitat for egg and juvenile development. An estimated 1 billion people are infected with hookworms. Transmission of A. duodenale is by contact of skin with soil contaminated with larvae. The way it enters the human body was understood in the 1880s, after an epidemic of ancylostomiasis among miners working in the hot and humid Gotthard Tunnel (Switzerland).[3][4]

Infection

A light hookworm infection causes abdominal pain, loss of appetite, and geophagy. Heavy infection causes severe protein deficiency or iron-deficiency anemia. Protein deficiency may lead to dry skin, edema, and abdominal distension from edema (potbelly), while iron-deficiency anemia might result in mental dullness and heart failure. In pregnant women, this parasite is able to infect the fetus and can cause complications such as low birth weight, maternal anemia, and infant mortality.[5]

The eggs of A. duodenale and Necator americanus cannot be distinguished. Larvae cannot be found in stool specimens unless they are left at ambient temperature for a day or more. Education, improved sanitation, and controlled disposal of human feces are important. Wearing shoes in endemic areas can reduce the prevalence of infection, as well. A. duodenale can be treated with albendazole, mebendazole, and benzimidazoles. Pyrantel pamoate is an alternative. In severe cases of anemia, blood transfusion may be necessary.

References

  1. Ferris, Howard (23 May 2005). "Ancylostoma duodenale". Nemaplex: Nematode-Plant Expert Information System. University of California, Davis. Archived from the original on 1 March 2009. Retrieved 22 January 2009.
  2. "Ancylostoma duodenale". Animal Diversity Web. Retrieved 26 April 2017.
  3. Bugnion, E. (1881). "On the epidemic caused by Ankylostomum among the eorkmen in the St. Gothard Tunnel". British Medical Journal. 1 (1054): 382. doi:10.1136/bmj.1.1054.382. PMC 2263460. PMID 20749811.
  4. Peduzzi, R.; Piffaretti, J.-C. (1983). "Ancylostoma duodenale and the Saint Gothard anaemia". British Medical Journal. 287 (6409): 1942–5. doi:10.1136/bmj.287.6409.1942. PMC 1550193. PMID 6418279.
  5. "Soil-Transmitted Helminths | USAID's Neglected Tropical Disease Program". www.neglecteddiseases.gov. Retrieved 2017-04-26.

Further reading

  • Hotez, P.J.; Pritchard, D.I. (June 1995). "Hookworm infection". Sci. Am. 272 (6): 68–74. Bibcode:1995SciAm.272f..68H. doi:10.1038/scientificamerican0695-68. PMID 7761817.
  • Looss, A. (1898). "Zur Lebensgeschichte des Ankylostoma duodenale". CBT. Bakt. 24: 441–9, 483–8.
  • Murray, P.R.; Rosenthal, K.S.; Pfaller, M.A. (2009). Medical Microbiology (6th ed.). Elsevier/Mosby. ISBN 978-0323076791.
  • Schmidt, G.D.; Roberts, L.S. (2009). Foundations of parasitology (8th ed.). McGraw-Hill. pp. 472–3. ISBN 978-0071311038.
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