Cestodes are tapeworms. There is a large variety but only those that are pathogenic to humans will be discussed here.
- Taenia solium (pork tapeworm)
- Taenia saginata (beef tapeworm)
- Diphyllobothrium latum (fish or broad tapeworm)
- Hymenolepis nana and Hymenolepis diminuta (dwarf tapeworm and rat tapeworm respectively)
- Echinococcus granulosus and Echinococcus multilocularis (cause hydatid disease)
- Spirometra spp. plerocercoid tapeworm larvae, resulting in sparganosis
Taenia solium and T. saginata
These cause 'taeniasis'.
- Present worldwide.
- Incidence is higher in developing countries - 10% of the population can be affected.
- The pork tapeworm has a higher incidence.
- Usually less than 5 m long but can grow up to 25 m; 12 mm broad.
- The head, called the scolex, is pear-shaped.
- It has no hooks and no neck.
- It has four suckers in the head.
- The body is long and flat with several hundred segments called proglottids - hermaphroditic, egg-producing sections.
- Each proglottid is 18 x 6 mm with a branched uterus.
- Eggs are round and yellow-brown in colour.
- It has a variable size and can be up to 7 m long; it has a neck and a long flat body.
- The scolex is globular in shape.
- There are four suckers and hooks.
- Proglottids are 5 x 10 mm and also have branched uteri.
Poorly cooked meat is ingested by humans who are the only definitive hosts. The poorly cooked meat includes tapeworm larval cysts (cysticerci) which then release larvae. These attach to the small intestine by the scolex suckers. The worm then matures over 3-4 months during which the proglottids develop. The worm can survive for up to 25 years in humans during which time the gravid proglottids are released into the faeces.
The excreted eggs which are excreted in the faeces can survive on vegetation where they are then consumed by cattle or pigs. Once in these animals the eggs hatch and cysticerci are released. These pass into the animal circulation from the small intestine and reside in the muscle. Humans are then infected by eating raw meat containing the cysticerci.
- This results from either T. saginata or T. solium and relates to the adult worm in the gut.
- This depends on the load of the infectious agents.
- Light infection may be asymptomatic. Heavier infection leads to epigastric pain, diarrhoea and vomiting.
T. solium can also lead to cysticercosis whereby larval cysts infiltrate the lung, liver, eye or brain. This results in inflammation leading to clinical features such as blindness, and neurological symptoms. In some countries (eg, Peru and Mexico) neurocysticercosis accounts for 30% of seizures making it an important cause of morbidity and mortality worldwide.
- Recover eggs or proglottids in stool or perianal area.
- Cysticercosis is confirmed by the presence of antibodies and imaging - eg, CXR, CT scan of the brain.
- Niclosamide or praziquantel (single dose) can be used (available on a named-patient basis).
- Treatment is very effective. Satisfactory treatment requires expulsion of the scolex.
- There has been suggestion to use a purgative before and after to improve expulsion of the tapeworm.
- Inspect meat thoroughly.
- Adequate handling of food - eg, freezing or cooking.
- Cysticerci do not survive temperatures of <10°C and >50°C.
- The World Health Organization (WHO) advocates the periodic treatment of tapeworms such as T. solium in endemic areas with albendazole. This can prevent neurocysticercosis at a later stage.
Diphyllobothrium latum (fish or broad tapeworm)
Infection results from eating raw or improperly cooked freshwater fish.
Present worldwide, especially in subarctic and temperate regions.
- This is the longest tapeworm in humans - 3-10 m in length.
- It has >3,000 proglottids which are more broad than long.
- The scolex is shaped as two almond leaves.
- Eggs are 35-55 x 55-75 micrometres.
Man and some animals are infected. The plerocercoid larvae result in infection in humans. The cycle begins by the ingestion of uncooked fish containing plerocercoid larvae which attach to the small intestine. In 3-5 weeks the worm matures to adult size. The adult worm releases eggs that are passed into the faeces. These eggs hatch in fresh water, releasing ciliated coracidia. These are subsequently ingested by the water flea (cyclops) and release procercoid larvae. The cyclops are then ingested by freshwater fish forming plerocercoid larvae which when ingested lead to infection.
This depends on the number of worms. Mild infection leads to:
- Abdominal discomfort.
- Loss of appetite.
- Loss of weight.
- B12 deficiency, which may occur with heavier infections and may lead to anaemia and even subacute combined degeneration of the spinal cord.
Recover typical eggs or proglottids in stools.
Praziquantel is first-line. Niclosamide can also be used.
- Freeze fish for 24 hours.
- Thoroughly cook fish.
- Pickle fish.
- Prevent sewage contamination of fish reservoirs.
Hymenolepis nana (dwarf tapeworm)
This is a relatively small tapeworm (15-40 mm) and tends to infect children. The reservoir is rodents and transmission is oro-faecal. Thus, cross infection and auto-infection are common in children.
The eggs are ingested and invade the small intestine where they mature into adult worms. These adults reside for several weeks.
Light infection is associated with vague abdominal pain but enteritis can occur with heavier infections.
Presence of eggs in faeces.
Niclosamide or a single dose of praziquantel are the drugs of choice.
Good hygiene can effectively prevent spread.
Hymenolepis diminuta is the rat tapeworm. It is much longer than H. nana and primarily affects rats but very rarely it can be accidentally ingested by humans - eg, by ingestion of insects that carry the parasite. Most interest in it relates to research. The presentation and management are similar to those of H. nana.
Echinococcus granulosus and E. multilocularis
Echinococcus granulosus and E. multilocularis cause hydatid disease. Dogs and other canids are the definitive hosts.
E. granulosus is common in Asia, Australia, East Africa, southern regions of Spain, South America and North America. In these areas, 1-2 per 1,000 population are affected. Incidence rates are higher in some rural areas.
E. granulosus is the smallest of the tapeworms (3 to 9 mm long) and it only has three proglottids.
The adult worms live in both domestic and wild carnivorous animals. Infected animals pass eggs in their faeces, which are then ingested by grazing farm animals and humans. The eggs then localise in various organs, resulting in a hydatid cyst which contains many larvae (called 'hydatid sand'). Other animals may then consume the infected organs and the cysts then release proto-scolices. These pass into the small intestine leading to adult worms.
In humans, the echinococcus eggs invade the small intestine and then enter the circulation. The cysts then locate and reside in organs including the liver, bone, lung and brain. Cysts are usually 1-7 cm but can be as big as 30 cm.
Symptoms depend on the site where the cysts have located and are similar to a growing tumour. Examples include:
- Large abdominal cysts which lead to discomfort.
- Liver cysts resulting in jaundice.
- Lung cysts which can lead to abscess formation.
- Brain cysts which can cause focal seizures and raised intracranial pressure.
- Cyst content which can lead to anaphylaxis.
- Abnormal LFTs.
- Antibodies against hydatid fluid.
- Imaging - eg, CXR, CT scan of the liver or abdomen, brain CT or MRI scan.
- Surgical removal of a cyst or inactivation of a cyst by injection of 10% formalin followed by resection.
- Often, complete resection of the cyst is impossible due to close proximity to major vessels.
- Medication may be necessary to keep the cyst from recurring. The drug of choice is albendazole.
- Avoid contact with infected animals.
- Eliminate the infection in domestic animals.
This is similar to E. granulosus with similar morphology and life cycle. It tends to occur in parts of Asia, North America and Europe too. The intermediate host is rodents. The presentation is similar as E. granulosus but the cysts are multilocular. Again, therapy involves surgery.
E. multilocularis is resistant to praziquantel although high doses of albendazole or mebendazole may be effective. Prevention involves rodent control measures.
Plerocercoid tapeworm larvae of Spirometra spp. can cause sparganosis, which is rare but has a tendency to affect the following:
- Subcutaneous tissue
- Skeletal muscle
- Visceral organs
- Central nervous system
- Spinal cord
It is found worldwide - most commonly in East Asia. Infection results from:
- Ingesting contaminated water or raw or inadequately cooked flesh of snakes or frogs.
- Applying skin of an infected animal to skin as a poultice.
This depends on which area of the body is affected - eg, spinal involvement presents with weakness and paraesthesia.
- Eosinophilia may not be present if the worm is localised to an organ.
- ELISA tests of serum or cerebrospinal fluids to detect antibodies to sparganosis.
- Treatment involves removal of the worm - eg, surgery.
- Any surrounding inflammation may require corticosteroids.
Further reading & references
- Irizarry L et al; Tapeworm Infestation, Medscape, Mar 2013
- Garcia HH, Gonzalez I, Mija L; Neurocysticercosis uncovered by single N Engl J Med. 2007 Mar 22;356(12):1277
- British National Formulary (links to latest edition)
- Taeniasis, DPDx, Centers for Disease Control & Prevention
- Rajshekhar V; Purging the worm: management of Taenia solium taeniasis. Lancet. 2004 Mar 20;363(9413):912.
- Diphyllobothriasis, DPDx, Centers for Disease Control & Prevention
- McManus DP, Zhang W, Li J, et al; Echinococcosis. Lancet. 2003 Oct 18;362(9392):1295
- Chautems R, Buhler LH, Gold B, et al; Surgical management and long-term outcome of complicated liver hydatid cysts caused by Echinococcus granulosus. 2005 Mar;137(3):312
- Echinococcosis, DPDx, Centers for Disease Control & Prevention
- Kwon JH, Kim JS; Sparganosis presenting as a conus medullaris lesion: case report and literature review of the spinal sparganosis. Arch Neurol. 2004 Jul;61(7):1126
|Original Author: Dr Gurvinder Rull||Current Version: Dr Colin Tidy||Peer Reviewer: Dr Adrian Bonsall|
|Last Checked: 05/04/2013||Document ID: 1931 Version: 23||© EMIS|
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