Diphyllobothrium dendriticum

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Diphyllobothrium dendriticum
FMIB 51771 Median segments of Dib tyhrium e rdiceps.jpeg
Median segments of Diphyllobothrium dendriticum
Scientific classification
Kingdom:
Animalia
Phylum:
Platyhelminthes
Class:
Cestoda
Subclass:
Eucestoda
Order:
Pseudophyllidea
Family:
Diphyllobothriidae
Genus:
Diphyllobothrium

Cobbold, 1858
Species:
D. dendriticum
Binomial name
Diphyllobothrium dendriticum

Diphyllobothrium dendriticum is a large pseudophyllid cestode of the family Diphyllobothriidae. [1]

Contents

For many years D. dendriticum infection was neglected. [1] Diphyllobothriasis is not a life-threatening disease and most human cases are mild or even asymptomatic. The original distribution of D. dendriticum is circumboreal, but it was also found in Argentina and Chile. [2] [3]

Life cycle

Life cycle of D. latum. Click the image to see full-size. D latum LifeCycle.png
Life cycle of D. latum. Click the image to see full-size.

The life cycle of D. dendriticum is similar to life cycles of other Diphyllobothrium species, all of which include three hosts. Freshwater copepods serve as the first intermediate hosts; fish serve as the second intermediate hosts. Moreover, many predator fish species can be paratenic hosts for Diphyllobothriidae, i.e., accumulate plerocercoids (the larval stage that infects definitive hosts) in muscles and internal organs. [4]

Eggs are passed unembryonated in feces. Under appropriate conditions, the eggs mature and yield oncosphere which develop into a coracidia. [5] Planktonic copepods serve as the first intermediate hosts in which the larval stage, called procercoid develops. The second larval stage or metacestode, called plerocercoid, develops in second intermediate host, freshwater and anadromous fishes, especially salmonids. [1] Because humans do not generally eat these small fish species raw, the second intermediate host probably does not represent an important source of human infection. However, these small second intermediate hosts can be eaten by larger predator species that then serve as paratenic host. Plerocercoid larvae is the infectious stage for the definitive host. [5] Plerocercoids of D. dendriticum are usually encysted within the visceral organs or body cavity. Humans can become infected either by consuming raw or undercooked visceral organs, such as liver and ovaries.

See also

Related Research Articles

<span class="mw-page-title-main">Host (biology)</span> Organism that harbours another organism

In biology and medicine, a host is a larger organism that harbours a smaller organism; whether a parasitic, a mutualistic, or a commensalist guest (symbiont). The guest is typically provided with nourishment and shelter. Examples include animals playing host to parasitic worms, cells harbouring pathogenic (disease-causing) viruses, or a bean plant hosting mutualistic (helpful) nitrogen-fixing bacteria. More specifically in botany, a host plant supplies food resources to micropredators, which have an evolutionarily stable relationship with their hosts similar to ectoparasitism. The host range is the collection of hosts that an organism can use as a partner.

<span class="mw-page-title-main">Trematoda</span> Class of parasitic flatworms

Trematoda is a class of flatworms known as flukes or trematodes. They are obligate internal parasites with a complex life cycle requiring at least two hosts. The intermediate host, in which asexual reproduction occurs, is usually a snail. The definitive host, where the flukes sexually reproduce, is a vertebrate. Infection by trematodes can cause disease in all five traditional vertebrate classes: mammals, birds, amphibians, reptiles, and fish.

<i>Diphyllobothrium</i> Genus of flatworms

Diphyllobothrium is a genus of tapeworms which can cause diphyllobothriasis in humans through consumption of raw or undercooked fish. The principal species causing diphyllobothriasis is D. latum, known as the broad or fish tapeworm, or broad fish tapeworm. D. latum is a pseudophyllid cestode that infects fish and mammals. D. latum is native to Scandinavia, western Russia, and the Baltics, though it is now also present in North America, especially the Pacific Northwest. In Far East Russia, D. klebanovskii, having Pacific salmon as its second intermediate host, was identified.

<span class="mw-page-title-main">Gnathostomiasis</span> Human disease

Gnathostomiasis, also known as larva migrans profundus, is the human infection caused by the nematode Gnathostoma spinigerum and/or Gnathostoma hispidum, which infects vertebrates.

Spirometra is a genus of pseudophyllid cestodes that reproduce in canines and felines, but can also cause pathology in humans if infected. As an adult, this tapeworm lives in the small intestine of its definitive host and produces eggs that pass with the animal's feces. When the eggs reach water, the eggs hatch into coracidia which are eaten by copepods. The copepods are eaten by a second intermediate host to continue the life cycle. Humans can become infected if they accidentally eat frog legs or fish with the plerocercoid stage encysted in the muscle. In humans, an infection of Spirometra is termed sparganosis.

<span class="mw-page-title-main">Eucestoda</span> Subclass of flatworms

Eucestoda, commonly referred to as tapeworms, is the larger of the two subclasses of flatworms in the class Cestoda. Larvae have six posterior hooks on the scolex (head), in contrast to the ten-hooked Cestodaria. All tapeworms are endoparasites of vertebrates, living in the digestive tract or related ducts. Examples are the pork tapeworm with a human definitive host, and pigs as the secondary host, and Moniezia expansa, the definitive hosts of which are ruminants.

Spirometra erinaceieuropaei is a parasitic tapeworm that infects domestic animals and humans. The medical term for this infection in humans and other animals is sparganosis. Morphologically, these worms are similar to other worms in the genus Spirometra. They have a long body consisting of three sections: the scolex, the neck, and the strobilia. They have a complex life cycle that consists of three hosts, and can live in varying environments and bodily tissues. Humans can contract this parasite in three main ways. Historically, humans are considered a paratenic host; however, the first case of an adult S. erinaceieuropaei infection in humans was reported in 2017. Spirometra tapeworms exist worldwide and infection is common in animals, but S. erinaceieuropaei infections are rare in humans. Treatment for infection typically includes surgical removal and anti-worm medication.

<i>Anguillicoloides crassus</i> Species of roundworm

Anguillicoloides crassus is a parasitic nematode worm that lives in the swimbladders of eels and appears to spread easily among eel populations after introduction to a body of water. It is considered to be one of the threats to the sustainability of populations of European eel. It was introduced to the European continent in the 1980s, where it was reported independently from Germany and Italy in 1982, having probably been introduced from Taiwan. It is thought to have reached England in 1987 from continental Europe. It is a natural parasite of the Japanese eel in its native range.

Diphyllobothriasis is the infection caused by tapeworms of the genus Diphyllobothrium.

<i>Schistocephalus solidus</i> Species of flatworm

Schistocephalus solidus is a tapeworm of fish, fish-eating birds and rodents. This hermaphroditic parasite belongs to the Eucestoda subclass, of class Cestoda. This species has been used to demonstrate that cross-fertilization produces a higher infective success rate than self-fertilization.

<span class="mw-page-title-main">Cestoda</span> Class of flatworms

Cestoda is a class of parasitic worms in the flatworm phylum (Platyhelminthes). Most of the species—and the best-known—are those in the subclass Eucestoda; they are ribbon-like worms as adults, known as tapeworms. Their bodies consist of many similar units known as proglottids—essentially packages of eggs which are regularly shed into the environment to infect other organisms. Species of the other subclass, Cestodaria, are mainly fish infecting parasites.

Diphyllobothrium mansonoides is a species of tapeworm (cestodes) that is endemic to North America. Infection with D. mansonoides in humans can result in sparganosis. Justus F. Mueller first reported this organism in 1935. D. mansonoides is similar to D. latum and Spirometra erinacei. When the organism was discovered, scientist did not know if D. mansonoides and S. erinacei were separate species. PCR analysis of the two worms has shown the two to be separate but closely related organisms.

Gnathostoma hispidum is a nematode (roundworm) that infects many vertebrate animals including humans. Infection of Gnathostoma hispidum, like many species of Gnathostoma causes the disease gnathostomiasis due to the migration of immature worms in the tissues.

<i>Ligula intestinalis</i> Species of flatworm

Ligula intestinalis is a tapeworm of fish, fish-eating birds and copepods, with species from each group featuring in its complex life cycle. Ligula intestinalis is a parasite that changes its intermediate host's behavior to become more vulnerable to its predators. In this case, Ligula intestinalis uses copepods and cyprinid fish as their intermediate host and develops inside of them to get to its final destination which is fish-eating birds. Plerocercoids, Ligula intestinalis larva, influence secondary intermediate hosts’ behavior, health, and fecundity. Additionally, Ligula intestinalis can cause fish-eating birds' gonads to remain undeveloped.

Bothriocephalus gregarius is a tapeworm that parasitises the turbot. It has a complex life cycle including two intermediate hosts, a copepod and a small fish.

Floridosentis is a genus in Acanthocephala.

Eocollis is a genus in Acanthocephala.

Wolffhugelia is a monotypic genus of acanthocephalans containing a single species, Wolffhugelia matercula, that infests animals.

Dispiron is a genus in Acanthocephala belonging to the family Neoechinorhynchidae.

References

  1. 1 2 3 Kuchta, Roman; Brabec, Jan; Kubáčková, Petra; Scholz, Tomáš (2013-12-26). "Tapeworm Diphyllobothrium dendriticum (Cestoda)—Neglected or Emerging Human Parasite?". PLOS Neglected Tropical Diseases. 7 (12): e2535. doi: 10.1371/journal.pntd.0002535 . ISSN   1935-2727. PMC   3873255 . PMID   24386497. CC-BY icon.svg Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License.
  2. Rozas, M.; Bohle, H.; Sandoval, A.; Ildefonso, R.; Navarrete, A.; Bustos, P. (December 2012). "First molecular identification of Diphyllobothrium dendriticum plerocercoids from feral rainbow trout (Oncorhynchus mykiss) in Chile". The Journal of Parasitology. 98 (6): 1220–1226. doi:10.1645/JP-GE-3097.1. ISSN   1937-2345. PMID   22715967. S2CID   24266309.
  3. Torres, P.; Franjola, R.; Figueroa, L.; Schlatter, R.; González, H.; Contreras, B.; Martin, R. (September 1981). "Researches on Pseudophyllidea (Carus, 1813) in the south of Chile. IV Occurrence of Diphyllobothrium dendriticum (Nitzch)". Journal of Helminthology. 55 (3): 173–187. doi:10.1017/S0022149X00026833. ISSN   0022-149X. PMID   7276504. S2CID   41446161.
  4. Kuklina, M. M.; Kuklin, V. V. (July 2016). "Diphyllobothrium dendriticum (Cestoda: Diphyllobothriidae) in the intestinal tract of the herring gull Larus argentatus: Localization and trophic parameters". Biology Bulletin. 43 (4): 329–334. Bibcode:2016BioBu..43..329K. doi:10.1134/s1062359016040063. ISSN   1062-3590. S2CID   237267.
  5. 1 2 Prevention, CDC-Centers for Disease Control and (2019-05-14). "CDC - Diphyllobothrium - Biology". www.cdc.gov. Retrieved 2020-12-19.
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