D. latum
D. pacificum
D. cordatum
D. ursi
D. dendriticum
D. lanceolatum
D. dalliae
D. yonagoensis

Diphyllobothriasis is caused by the infestation of tapeworms, of the genus Diphyllobothrium. The principal species causing Diphyllobothriasis is Diphyllobothrium latum, known as the broad or fishy tapeworm, or broad chess tapeworm. D. latum is the longest tapeworm in humans, averaging ten meters long. Adults can shed up to a million eggs a day. D. latum is a pseudophyllid cestode that infects fish and mammals. It is morphologically very similar to other members of the genus Diphyllobothrium, but can sometimes be distinguished by host. Even this is not always possible, as there have been twelve other species of this genus reported to infect humans, especially Diphyllobothrium dendriticum (the salmon tapeworm), which has a much larger range (the whole northern hemisphere). D. latum is endemic to Scandinavia, western Russia, and the Baltics, though it is now also present in North America, especially the Pacific Northwest.

In adults, proglottids are usually relatively wide (hence the name broad tapeworm). As in all pseudophyllid cestodes, the genital pores open midventrally.

Several other Diphyllobothrium species have been reported to infect humans, but less frequently; they include D. pacificum, D. cordatum, D. ursi, D. lanceolatum, D. dalliae, and D. yonagoensis.

Contents

1 Life cycle 2 Geographic distribution 3 Clinical features 4 Diagnosis and treatment 5 References

Life cycle

Adult tapeworms may infect humans, canids, felines, bears, pinnipeds, and mustelids, though the accuracy of the records for some of the nonhuman species is disputed.

Immature eggs are passed in feces of the mammal host (the definitive host , where the worms reproduce). Under appropriate conditions, the eggs mature (in approximately 18 to 20 days) and yield oncosphere larvae which develop into coracidia (ciliated larvae). After ingestion by a suitable freshwater crustacean such as a copepod (the first intermediate host ) the coracidia develop into procercoid larvae. Following ingestion of the copepod by a suitable second intermediate host, typically a minnow or other small freshwater fish, the procercoid larvae are released from the crustacean and migrate into the fish flesh where they develop into a plerocercoid larvae (sparganum). The plerocercoid larvae are the infective stage for the definitive host (including humans).

Because humans do not generally eat undercooked minnows and similar small freshwater fish, these do not represent an important source of infection. Nevertheless, these small second intermediate hosts can be eaten by larger predator species, for example, trout, perch , and walleyed pike . In this case, the sparganum can migrate to the musculature of the larger predator fish and mammals can acquire the disease by eating these later intermediate infected host fish raw or undercooked. After ingestion of the infected fish, the plerocercoids develop into immature adults and then into mature adult tapeworms which will reside in the small intestine. The adults attach to the intestinal mucosa by means of the two bilateral grooves (bothria ) of their scolex. The adults can reach more than 10 m in length in some species such as D. latum, with more than 3,000 proglottids. Immature eggs are discharged from the proglottids (up to 1,000,000 eggs per day per worm) and are passed in the feces. Eggs appear in the feces 5 to 6 weeks after infection.

The best way for humans to avoid infection is not to eat undercooked fish. Also, because human feces is an important mechanism for spreading eggs, proper disposal of sewage can cut down on infection of fish and thus of humans.

Geographic distribution

Diphyllobothriasis occurs in areas where lakes and rivers coexist with human consumption of raw or undercooked freshwater fish. Such areas are found in the Northern Hemisphere (Europe, newly independent states of the former Soviet Union (NIS), North America, Asia), and in Uganda and Chile.

Clinical features

Diphyllobothriasis can last for decades if untreated. Most infections are asymptomatic. Manifestations may include abdominal discomfort, diarrhea, vomiting, and weight loss. Vitamin B12 deficiency with pernicious anemia may occur, but has not for several decades in D. latum infections, possibly because of improved nutrition. In one test, nearly half of the ingested vitamin was absorbed by D. latum in otherwise healthy patients, while 80-100% was absorbed by the worm in patients with anemia. It is not known why anemia occurs in some cases but not others. Massive infections may result in intestinal obstruction. Migration of proglottids can cause cholecystitis or cholangitis .

More women are infected than men, and this is probably because they are more likely to be cooks, rather than because of morphological differences.

Diagnosis and treatment

Microscopic identification of eggs in the stool is the basis of specific diagnosis. Eggs are usually numerous and can be demonstrated without concentration techniques. Examination of proglottids passed in the stool is also of diagnostic value.

Diagnostic tool:

• Microscopy
• Morphologic comparison with other intestinal parasites

Though it is difficult to identify the eggs or proglottids to the species level, the distinction is of little medical importance because, like most adult tapeworms in the intestine, all members of this genus respond to the same drugs. Praziquantel is the drug of choice. Alternatively, niclosamide can also be used to detach the worms so they can be passed with feces.

References

• http://www.dpd.cdc.gov/dpdx/HTML/Diphyllobothriasis.htm
• Roberts, Larry S. and Janovy, John Jr. Gerald D. Schmidt and Larry S. Roberts' Foundations of Parasitology, Seventh edition. 2005.