Elaeophora schneideri

Last updated

Elaeophora schneideri
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Nematoda
Class: Chromadorea
Order: Rhabditida
Family: Onchocercidae
Genus: Elaeophora
Species:
E. schneideri
Binomial name
Elaeophora schneideri
Wehr & Dikmans, 1935

Elaeophora schneideri (arterial worm; carotid worm; cause of elaeophorosis, aka "filarial dermatitis" or "sorehead" in sheep; or "clear-eyed" blindness in elk) is a nematode which infests several mammalian hosts in North America. It is transmitted by horse-flies. Infection in the normal definitive hosts, mule deer or black-tailed deer, seldom produces clinical symptoms. In other hosts, such as sheep, elk, moose, and goats, infection with E. schneideri leads to elaeophorosis. Symptoms of elaeophorosis include necrosis of the muzzle, ears, and optic nerves; lack of coordination (ataxia); facial or lower limb dermatitis; horn deformities; blindness; and death.

Contents

Discovery

Symptoms of elaeophorosis were first observed in 1933, in sheep (New Mexico) and mule deer (Utah) infested by an unknown nematode worm. [1] Specimens were first described as Macdonaldius sp. in 1934, [2] and later revised to Elaeophora schneideri Wehr and Dikmans, 1935. [3] A more complete description of adults from elk, sheep and deer was published in 1968. [4]

Description

The female adults are 60–120 mm long and 56-89 μm wide, while males are 55–85 mm long and 40-68 μm wide. The microfilariae are 239-279 μm long and 11-15 μm wide.[ citation needed ]

Hosts and life cycle

The normal definitive hosts for E. schneideri are the mule deer and black-tailed deer. It has also been found in several other wild mammalian hosts: white-tailed deer, elk, moose, bighorn sheep, Barbary sheep, domestic sheep. Infestation was also found in sika deer on Texas ranches. Infestations of cattle, horses or humans have not been reported. The vectors of E. schneideri are blood-feeding horse-flies of the family Tabanidae, genera Hybomitra , Tabanus , or Silvius. [5]

Life cycle. In the normal definitive host, E. schneideri microfilariae are found in the host's skin, particularly around the forehead and poll areas. When a horse-fly feeds on an infected host, it ingests some of these microfilariae. Within a few weeks, the microfilariae develop into infective third-stage larvae (called L3) in the fly's fat body tissue and haemocoel. The mature L3 larvae migrate to the head and mouth-parts of the fly. When the fly feeds on another host, the L3 larvae enter the host's blood stream through the bite wound. They are carried throughout the host's circulatory system, and embed themselves in the walls of the leptomeningeal arteries. After a 2-week maturation period, they migrate to the carotid artery. About 4–6 months later they become sexually mature and begin to produce microfilariae. The adults live for 3–4 years. The microfilariae are released into the host's bloodstream, which carries them to the small capillaries of the skin in the head region. They become lodged in these narrow spaces, and await the next feeding horsefly. [6] [7]

In abnormal definitive hosts, such as sheep and elk, the adults may remain in the smaller arteries of the head and face region, instead of migrating to the carotid artery. In these smaller arteries, they obstruct blood flow to various parts of the head, face, and brain; which leads to the clinical symptoms of elaeophorosis [ citation needed ]

Distribution

In the United States, E. schneideri has been reported from various wild hosts in 19 states: Arizona, Arkansas, California, Colorado, Florida, Georgia, Louisiana, Missouri, Montana, Nebraska, New Mexico, North Dakota (in imported animals), Oklahoma, South Carolina, South Dakota, Texas, Utah, Washington and Wyoming. [8] [9] [10] It has also been reported from elk and black-tailed deer in Canada. [11]

Species of Elaeophora other than E. schneideri infest various mammals in Europe, Asia and Africa. One survey of Red Deer (Cervus e. elaphus), Fallow deer (Dama dama), as well as domestic sheep, cattle and goats in Czechoslovakia yielded no specimens of E. schneideri. [12]

Prevalence

Field surveys of wild mammal populations have shown wide variation in the percentage of animals infested with E. schneideri. Surveys of all hosts in the southeastern United States generally indicate infection rates in the range of 2-15%. [5] Prevalence rates as high as 50% in mule deer near Durango, Colorado; 78% in black tailed deer herd in Mendocino County, California, [13] 90% in mule deer herds at high elevation sites in Arizona and New Mexico, [14] and 100% (14 of 14 animals) in Texas mule deer [15] have been reported. In areas of high abundance in definitive hosts, the fear of spread to commercial livestock is greatest.

Clinical signs

Symptoms of Elaeophora schneideri infestation vary among the different mammalian hosts.[ citation needed ]

In the normal definitive hosts, mule deer and black-tailed deer, infestations are asymptomatic.[ citation needed ]

In the white-tailed deer, infestation is also often asymptomatic. However, blockage and thickening of coronary, cephalic, brachial and femoral arteries and sublingual food impaction have been reported in this host. [16]

In both moose and elk, infestation can lead to fatality. Blockage of the carotid and other arteries of the head and face region by E. schneideri adults restricts local bloodflow, leading to ischemic damage to the brain, optic nerve, ears, muzzle and other facial areas. The results are often blindness; walking in circles or poor coordination (ataxia); dermatitis or gangrene of the ears, muzzle or nostrils; abnormal antler growth; or death. [17] [9] [18]

In the domestic sheep, Barbary sheep, bighorn sheep, goats, and sika deer, symptoms are typically dermatological, resulting from inflammatory responses to the microfilariae which accumulate under the skin of the face and ears. The resulting lesions have been described by various authors as "dermal encrustations", [19] "tumorous masses", [20] "raw, bloody dermatitis", [21] or "crusty, scabby lesions" [22] of the head and face. Alopecia, blepharitis, and secondary conjunctivitis have also been observed in sheep. Arterial occulsion may also occur in sheep, but to a lesser degree than in moose and elk. [6]

Diagnosis and treatment

Diagnosis involves recovering either adult worms from the arteries after the death of the infested host, or microcercariae from the skin of the face or head. Treatments have been reported for sheep. A combination of tartar emetic (antimony potassium tartrate) and emetine hydrochloride healed the skin lesions. [23] For elimination of the nematodes, fuadin (stibophen), diethylcarbamazine and piperazine hexahydrate have been suggested. [24] However, repeated administration of diethylcarbamazine runs the risk of fatality due to accumulation of dead worms in the arteries.[ citation needed ]

Related Research Articles

<i>Loa loa</i> Species of roundworm

Loa loa is a filarial (arthropod-borne) nematode (roundworm) that causes Loa loa filariasis. Loa loa actually means "worm worm", but is commonly known as the "eye worm", as it localizes to the conjunctiva of the eye. Loa loa is commonly found in Africa. It mainly inhabits rain forests in West Africa and has native origins in Ethiopia. The disease caused by Loa loa is called loiasis and is one of the neglected tropical diseases.

<span class="mw-page-title-main">Chronic wasting disease</span> Prion disease affecting the deer family

Chronic wasting disease (CWD), sometimes called zombie deer disease, is a transmissible spongiform encephalopathy (TSE) affecting deer. TSEs are a family of diseases thought to be caused by misfolded proteins called prions and include similar diseases such as BSE in cattle, Creutzfeldt–Jakob disease (CJD) in humans and scrapie in sheep. Natural infection causing CWD affects members of the deer family. In the United States, CWD affects mule deer, white-tailed deer, red deer, sika deer, elk, caribou, and moose. The transmission of CWD to other species such as squirrel monkeys and humanized mice has been observed in experimental settings.

<span class="mw-page-title-main">Filariasis</span> Parasitic disease caused by a family of nematode worms

Filariasis is a parasitic disease caused by an infection with roundworms of the Filarioidea type. These are spread by blood-feeding insects such as black flies and mosquitoes. They belong to the group of diseases called helminthiases.

<i>Wuchereria bancrofti</i> Species of parasitic worm

Wuchereria bancrofti is a filarial (arthropod-borne) nematode (roundworm) that is the major cause of lymphatic filariasis. It is one of the three parasitic worms, together with Brugia malayi and B. timori, that infect the lymphatic system to cause lymphatic filariasis. These filarial worms are spread by a variety of mosquito vector species. W. bancrofti is the most prevalent of the three and affects over 120 million people, primarily in Central Africa and the Nile delta, South and Central America, the tropical regions of Asia including southern China, and the Pacific islands. If left untreated, the infection can develop into lymphatic filariasis. In rare conditions, it also causes tropical pulmonary eosinophilia. No vaccine is commercially available, but high rates of cure have been achieved with various antifilarial regimens, and lymphatic filariasis is the target of the World Health Organization Global Program to Eliminate Lymphatic Filariasis with the aim to eradicate the disease as a public-health problem by 2020. However, this goal was not met by 2020.

<i>Brugia malayi</i> Medical condition

Brugia malayi is a filarial (arthropod-borne) nematode (roundworm), one of the three causative agents of lymphatic filariasis in humans. Lymphatic filariasis, also known as elephantiasis, is a condition characterized by swelling of the lower limbs. The two other filarial causes of lymphatic filariasis are Wuchereria bancrofti and Brugia timori, which both differ from B. malayi morphologically, symptomatically, and in geographical extent.

<i>Dirofilaria immitis</i> Species of worm that causes parasitic disease in animals

Dirofilaria immitis, also known as heartworm or dog heartworm, is a parasitic roundworm that is a type of filarial worm, a small thread-like worm, and which causes dirofilariasis. It is spread from host to host through the bites of mosquitoes. Four genera of mosquitoes transmit dirofilariasis, Aedes, Culex, Anopheles, and Mansonia. The definitive host is the dog, but it can also infect cats, wolves, coyotes, jackals, foxes, ferrets, bears, seals, sea lions and, under rare circumstances, humans.

Parelaphostrongylus tenuis is a neurotropic nematode parasite common to white-tailed deer, Odocoileus virginianus, which causes damage to the central nervous system. Moose, elk, caribou, mule deer, and others are also susceptible to the parasite, but are aberrant hosts and are infected in neurological instead of meningeal tissue. The frequency of infection in these species increases dramatically when their ranges overlap high densities of white-tailed deer.

Elaeophora is a genus of parasitic nematodes which live attached to the interior surfaces of major arteries, veins and/or heart chambers in various large mammal hosts. Infestation with Elaeophora species is referred to as elaeophorosis. The species of Elaeophora have been found in Africa, Asia, Europe, and North America. Despite the fact that they produce aneurysms in the arteries and heart of their hosts which measure up to 2 cm in diameter, overt clinical symptoms of infestation are seldom reported, with the notable exception of E. schneideri infestation in sheep, elk, and moose.

<span class="mw-page-title-main">Moose sickness</span>

Moose sickness is a neurological condition seen in the northern mixed-wood forests of central and eastern North America where moose distribution overlaps with that of white-tailed deer. The disease is characterized by an unsteady gait, stumbling, head held to one side, circling, staying in one location, and in severe cases, being unable to get up.

Elaeophora abramovi is a nematode parasite found in the hepatic arteries of the Moose in Russia.

Elaeophora bohmi is a nematode parasite found in various arteries of the horse. The adult males are 44-55 mm long and 95 μm wide, while adult females can be over 12 cm long and 210 μm wide. Microfilariae are not sheathed, and measure 300-330 μm long and 6-7 μm wide. The life cycle and clinical symptoms of infestation by E. bohmi have not been described.

Elaeophora elaphi is a nematode parasite found in the blood vessels of the liver in Red Deer in certain parts of Spain. The adult male measures 77 mm long and 549 μm wide, adult females are 91–109 mm long and 793-1049 μm wide, and microfilariae are 225 μm long. Though adult E. elaphi induce lesions in the blood vessels, and appear to activate the local immune response, they seldom cause overt clinical symptoms in their hosts.

Elaeophora poeli is a parasitic nematode found in the aorta, and sometimes the heart, of various cattle throughout Asia, and in parts of Africa. It is a large nematode, with males measuring 45–70 mm long and 200-260 µm wide, and females 40–300 mm long and 350 µm wide. Microfilariae are 340-346 µm long and 7.0-7.5 µm wide. Despite the fact that it lives in nodules (aneurysms) in the walls of the aorta and heart, apparent clinical symptoms of E. poeli infestation are seldom reported.

Elaeophora sagitta is a parasitic nematode found in the heart, coronary arteries and pulmonary arteries of several ruminant species and African buffaloes in Africa. Infestation usually occurs without significant health effects in the Greater kudu, but may affect cardiac function in some other host species.

<span class="mw-page-title-main">Microfilaria</span> Early stage in the life cycle of certain parasitic nematodes in the family Onchocercidae

The microfilaria is an early stage in the life cycle of certain parasitic nematodes in the family Onchocercidae. In these species, the adults live in a tissue or the circulatory system of vertebrates. They release microfilariae into the bloodstream of the vertebrate host. The microfilariae are taken up by blood-feeding arthropod vectors. In the intermediate host the microfilariae develop into infective larvae that can be transmitted to a new vertebrate host.

<i>Thelazia</i> Genus of roundworms

Thelazia is a genus of nematode worms which parasitize the eyes and associated tissues of various bird and mammal hosts, including humans. They are often called "eyeworms", and infestation with Thelazia species is referred to as "thelaziasis". Adults are usually found in the eyelids, tear glands, tear ducts, or the so-called "third eyelid". Occasionally, they are found in the eyeball itself, either under the conjunctiva or in the vitreous cavity of the eyeball. All species of Thelazia for which the life cycle has been studied are transmitted by species of Diptera (flies) which do not bite, but which feed on tears.

<span class="mw-page-title-main">Thelaziasis</span> Medical condition

Thelaziasis is the term for infestation with parasitic nematodes of the genus Thelazia. The adults of all Thelazia species discovered so far inhabit the eyes and associated tissues of various mammal and bird hosts, including humans. Thelazia nematodes are often referred to as "eyeworms".

<span class="mw-page-title-main">Filarioidea</span> Superfamily of roundworms

The Filarioidea are a superfamily of highly specialised parasitic nematodes. Species within this superfamily are known as filarial worms or filariae. Infections with parasitic filarial worms cause disease conditions generically known as filariasis. Drugs against these worms are known as filaricides.

Mansonella streptocerca,, is a filarial (arthropod-borne) nematode (roundworm) causing the disease streptocerciasis. It is a common parasite in the skin of humans in the rain forests of Africa, where it is thought to be a parasite of chimpanzees, as well.

Setaria cervi is a species of parasitic roundworms belonging to the genus Setaria. It infects cattle, bison, yak, reindeer, buffalo, moose, and sheep all over the world. It is most prevalent in Europe and Asia. Different species of Aedes mosquito can transmit the filarial worm. Stable fly Haematobia stimulans is the major vector. The mature roundworms are primarily present in the abdominal (peritoneal) cavity, but are capable of migrating to central nervous system causing serious neurological disease.

References

  1. Kemper, H.E. (1938) "Filarial dermatosis of sheep." North American Veterinarian 19(9):38-41.
  2. Dikmans, G. (1934) "New records of helminth parasites." Proceedings of the Helminthological Society of Washington 1:63-64
  3. Wehr, E.E. and G. Dikmans (1935) New nematodes (Filariidae) from North American ruminants. Zoologischer Anzeiger 110(7-8):202-208.
  4. Hibler, C.P. and J.L. Adcock (1968) Redescription of Elaeophora schneideri Wehr and Dikmans, 1935 (Nematoda: Filarioidea). Journal of Parasitology 54(6):1095-1098.
  5. 1 2 Pence, D.B. (1991) Elaeophorosis in wild ruminants. Bulletin of the Society for Vector Ecology 16(1):149-160.
  6. 1 2 Hibler, C.P. and C.J. Metzger (1974) Morphology of the larval stages of Elaeophora schneideri in the intermediate and definitive hosts with some observations on their pathogenesis in abnormal definitive hosts. Journal of Wildlife Diseases 10(4):361-369.
  7. "Elaeophorosis". The Merck Veterinary Manual. 2006. Retrieved 2007-07-01.
  8. Couvillion, C.E., W.R. Davidson, and V.F. Nettles (1985) Distribution of Elaeophora schneideri in white-tailed deer in the southeastern United States, 1962-1983. Journal of Wildlife Diseases 21(4):451-453.
  9. 1 2 Pessier, A.P., V.T. Hamilton, W.J. Foreyt, S. Parish, and T.L. McElwain (1998) Probable elaeophorosis in a moose (Alces alces) from eastern Washington state. Journal of Veterinary Diagnostic Investigation 10(1):82-84.
  10. Jacques, C.N., J.A. Jenks, D.T. Nelson, T.J. Zimmerman, and M.C. Sterner (2004) Elaeophorosis in free-ranging mule deer in South Dakota. Prairie Naturalist 36(4):251-254.
  11. Smits, J.E.G. (1991) A brief review of infectious and parasitic diseases of wapiti, with emphasis on western Canada and the northwestern United States. Canadian Veterinary Journal 32(8):471-479.
  12. Worley, D.E., P. Kolár, J. Corba, K. Chroust, and B. Kotrlá (1985) A preliminary survey for the arterial nematode, Elaeophora schneideri Wehr and Dikmans, 1935, in Czechoslovakia. Folia Parasitologica 32(4):371-372.
  13. Weinmann, C.J., J.R. Anderson, W.M. Longhurst, and G. Conolly (1973) Filarial worms of Columbian black-tailed deer in California. 1. Observations in the vertebrate host. Journal of Wildlife Diseases 9(3):213-220.
  14. Hibler, C.P., J.L. Adcock, R.W. Davis, and Y.Z. Abdelbaki (1969) Elaeophorosis in deer and elk in the Gila Forest, New Mexico. Bulletin of the Wildlife Disease Association 5(1):27-30.
  15. Pence, D.B. and G.G. Gray (1981) Elaeophorosis in Barbary sheep and mule deer from the Texas Panhandle. Journal of Wildlife Diseases 17(1):49-56.
  16. Couvillion, C.E., V.F. Nettles, C.A. Rawlings, and R.L. Joyner (1986a) Elaeophorosis in white-tailed deer: Pathology of the natural disease and its relation to oral food impactions. Journal of Wildlife Diseases 22(2):214-223.
  17. Madden, D.J., T.R. Spraker, and W.J. Adrian (1991) Elaeophora schneideri in moose (Alces alces) from Colorado. Journal of Wildlife Diseases 27(2):340-341.
  18. Adcock, J.L. and C.P. Hibler (1969) Vascular and neuro-ophthalmic pathology of elaeophorosis in elk. Pathologia Veterinaria 6(3):185-213.
  19. Jensen, L. and L. Seghetti (1955) Elaeophorosis in sheep. Journal of the American Veterinary Medical Association 130:220-224.
  20. Robinson, R.M., P. Jones, T.J. Galvin, and G.M. Harwell (1978) Elaeophorosis in sika deer in Texas. Journal of Wildlife Diseases 14(4):137-141.
  21. Thorne, E.T., N. Kingston, W.R. Jolley, and R.C. Bergstrom (1982) Elaeophorosis. In: "Diseases of Wildlife in Wyoming". Wyoming Game and Fish Department: Cheyenne, WY. pp. 214-218.
  22. Boyce, W., A. Fisher, H. Provencio, E. Rominger, J. Thilsted, and M. Ahlm (1999) Elaeophorosis in bighorn sheep in New Mexico. Journal of Wildlife Diseases 35(4):786-789.
  23. Kemper, H.E. and I.H. Roberts (1946) "Treatment of filarial dermatosis of sheep with antimony compounds." American Journal of Veterinary Research 7(24):350-354.
  24. Kemper, H.E. (1957) Filarial dermatosis of sheep. Journal of the American Veterinary Medical Association 130(5):220-224.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.