Angiostrongylus vasorum

Angiostrongylus vasorum
Scientific classification
Kingdom: Animalia
Phylum: Nematoda
Class: Secernentea
Order: Strongylida
Family: Metastrongylidae
Genus: Angiostrongylus
Species: A. vasorum
Binomial name
Angiostrongylus vasorum
(Baillet, 1866)
(Kamensky, 1905)
Synonyms
  • Angiocaulus raillieti
  • Angiostrongylus raillieti

Angiostrongylus vasorum, also known as French heartworm, is a species of parasitic nematode in the family Metastrongylidae. It causes the disease canine angiostrongylosis in dogs. It is not zoonotic, that is, it cannot be communicated to humans.

Not much is known about the biology of this species.[1]

Description

These nematode worms are small and pinkish in color.[2] The length is 14.0–20.5 mm.[2] The width is 0.170-0.306 mm.[2]

Females have a barbers pole appearance.

Life cycle

The life cycle begins when L3 larvae are ingested by a definitive host, primarily the fox or dog. This can be through eating mollusc (intermediate hosts), frogs (paraentenic hosts), or from food infected with slime from the slugs or snails. The L3 larvae migrate to the mesenteric lymph nodes and moult to L4, and L5. The L5 larvae migrate through the portal circulation and through the liver and the adults end up at the pulmonary artery or right side of the heart.

The adults then mate and produce eggs. The eggs move to the alveolar capillaries via the circulation and hatch to L1 larvae. The L1 larvae burrow though the alveolar and are then coughed up and swallowed. L1 larvae are therefore passed in the faeces of infected cannids.

The L1 larvae infect intermediate hosts (primarily slugs and snails) by penetrating the foot of the mollusc and develop to L3 within.

Adult worms can live for 2 years. The pre-patent period is 6–10 weeks.

Pathology and diagnosis

Pathology is from both the adult worms, eggs and larvae.

Cardio-respiratory signs are one clinical symptom. Chronic, coughing, exercise intolerance, dyspnoea and tachypnoea in young dogs is due to blood vessels being blocked by adults, eggs and larvae.

The parasite also causes coagulopathies. Haematomas and prolonged bleeding are as a result of thrombocytopaenia (where clotting factors are decreased due to them binding to antigen - antibody complexes). Clotting factors V and VIII are also reduced. Hypochromic anaemia is another symptom, also used in diagnosis and is due to the parasite interfering with haemoglobin synthesis.

Angiostrongylus vasorum also causes neurological damage. These present as ataxia, paresis, loss of vision, behavioural changes and seizures. All these symptoms are as a direct result of CNS haemorrhages.

Diagnosis is made from a combination of clinical signs and tests.

Imaging can show lung lesions in the peripheral lobes. Blood tests, showing eosinophillia, poor clotting ability and speed as well as hypochomric anemia all point towards a diagnosis. Some cases may also have hypercalcaemia the cause of this unknown but may relate to granulomatous inflammation and macrophage production of alpha 1 hydroxylase. Faecal examination using the Baerman technique are unreliable, as egg output is irregular and the pre-patent period of the parasite is relatively long. However this test is more sensitive than a faecal smear examination. Multiple samples help reduce the risk of a false negative but should not be relied upon.

Post mortem examination can also reveal the causative agent to be Angiosrongylus vasorum. Again, lung lesions (looking for mottled lungs) are seen. Subcutaneous haematomas and enlarged blood vessels are common. Another sign is endocarditis of the right side of the heart and the tricuspid valve.

Hosts

The natural intermediate hosts of Angiostrongylus vasorum are land slugs, land snails and freshwater snails.[3] Angiostrongylus vasorum shows little host specificity in its intermediate host.[4]

Natural definitive hosts are domestic dogs[3] and various other carnivores include:[5]

Angiostrongylus vasorum lives in the right ventricle of the heart and the pulmonary artery.[3] The infection can be fatal in dogs.[6]

Natural paratenic hosts can be frogs, lizards, mice, rats.[3]

Experimental intermediate hosts of Angiostrongylus vasorum include:

Other known experimental (only experimental?) hosts include:[2]

Experimental definitive hosts of Angiostrongylus vasorum include:

Distribution

The native area (enzootic) of Angiostrongylus vasorum is Western Europe (United Kingdom, Ireland, France, Spain).[3][6]

Up to 23% of foxes are infected in southeast England. 5% of patent infected dogs are clinically healthy. There is a correlation between high fox incidence and domestic dog incidence, logically leading to the assumption that the fox is an important wildlife reservoir of this parasite.

Other known areas include

Larvae of the first stage were found in Australia,[3] Argentina and Greece.[2]

The area where this species is found is expanding.[1]

It has also been reported from South America: Brazil and Colombia,[6] but molecular analysis revealed that Angiostrongylus vasorum from Brazil has a different genotype.[5] Thus it is possible that it is a different species in Brazil and in elsewhere in South America.[5]

Treatment and Prevention

In Europe Imidacloprid 10%/Moxidectin 2.5% has been approved for treatment and prevention of Angiostrongylus vasorum in dogs. For treatment of infected dogs, a single dose should be administered. A further veterinary examination 30 days after treatment is recommended as some animals may require a second treatment. In endemic areas, monthly application will prevent angiostrongylosis and patent infection with Angiostrongylus vasorum.[10]

References

  1. 1 2 Morgan, E. R.; Shaw, S. E.; Brennan, S. F.; De Waal, T. D.; Jones, B. R.; Mulcahy, G. (2005). "Angiostrongylus vasorum: A real heartbreaker". Trends in Parasitology. 21 (2): 49–51. doi:10.1016/j.pt.2004.11.006. PMID 15664523.
  2. 1 2 3 4 5 6 7 8 9 Conboy G. A. (30 May 2000) "Canine Angiostrongylosis (French Heartworm)". In: Bowman D. D. (Ed.) Companion and Exotic Animal Parasitology. International Veterinary Information Service. Accessed 24 November 2009.
  3. 1 2 3 4 5 6 7 8 Barçante T. A., Barçante J. M. de P., Dias S. R. C. & Lima W. d. S. (December 2003) "Angiostrongylus vasorum (Baillet, 1866) Kamensky, 1905: emergence of third-stage larvae from infected Biomphalaria glabrata snails". Parasitology Research 91(6): 471-475. doi:10.1007/s00436-003-1000-9.
  4. Boray J. C. (1973) "The role of the relative susceptibility of snails to infection with helminths and of the adaptation of the parasites in the epidemiology of some helminthic diseases". Malacologia 14: 125-127.
  5. 1 2 3 4 Jefferies, R.; Shaw, S. E.; Viney, M. E.; Morgan, E. R. (2009). "Angiostrongylus vasorum from South America and Europe represent distinct lineages". Parasitology. 136 (1): 107–115. doi:10.1017/s0031182008005258.
  6. 1 2 3 4 5 6 7 8 Bourque, A.; Conboy, G.; Miller, L.; Whitney, H.; Ralhan, S. (2002). "Angiostrongylus vasorum infection in 2 dogs from Newfoundland". The Canadian veterinary journal. La revue veterinaire canadienne. 43 (11): 876–879. PMC 339763Freely accessible. PMID 12497965.
  7. Torres, J.; Miquel, J.; Motjé, M. (2001). "Helminth parasites of the eurasian badger (Meles meles L.) in Spain: A biogeographic approach". Parasitology research. 87 (4): 259–263. doi:10.1007/s004360000316. PMID 11355672..
  8. Pereira, C. A. J.; Martins-Souza, R. L.; Coelho, P. M. Z.; Lima, W. S.; Negrão-Corrêa, D. (2006). "Effect of Angiostrongylus vasorum infection on Biomphalaria tenagophila susceptibility to Schistosoma mansoni". Acta Tropica. 98 (3): 224–233. doi:10.1016/j.actatropica.2006.05.002.
  9. Ferdushy T. Kapel C. M. O., Webster P., Al-Sabi M. N. S. & Grønvold J. (December 2009, online 22 May 2009) "The occurrence of Angiostrongylus vasorum in terrestrial slugs from forests and parks in the Copenhagen area, Denmark". Journal of Helminthology 83(4): 379-383. Ferdushy, T.; Kapel, C. M. O.; Webster, P.; Al-Sabi, M. N. S.; Grønvold, J. (2009). "The occurrence of Angiostrongylus vasorum in terrestrial slugs from forests and parks in the Copenhagen area, Denmark". Journal of Helminthology. 83 (4): 379. doi:10.1017/S0022149X09377706..
  10. [Noah Compendium 2015]

Further reading

External links

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