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Brugia timori

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Brugia timori
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Nematoda
Class: Chromadorea
Order: Rhabditida
Family: Onchocercidae
Genus: Brugia
Species:
B. timori
Binomial name
Brugia timori
Partono et al. 1977

Brugia timori is a filarial (arthropod-borne) nematode (roundworm) which causes the disease "Timor filariasis", or "Timorian filariasis". While this disease was first described in 1965,[1] the identity of Brugia timori as the causative agent was not known until 1977.[2] In that same year, Anopheles barbirostris was shown to be its primary vector.[3] There is no known animal reservoir host.

Signs and symptoms

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Brugia timori
SpecialtyInfectious disease

Like other human filariasis infections, Brugia timori filariasis causes acute fever and chronic lymphedema. The life cycle of Brugia timori is very similar to that of Wuchereria bancrofti and Brugia malayi, leading to nocturnal periodicity of the disease symptoms. Eosinophilia is common during acute stages of infection.[citation needed]

So far Brugia timori has only been found in the Lesser Sunda Islands of Indonesia. It is locally confined to areas inhabited by its mosquito vector, which breeds in rice fields. One study of the prevalence of infection in Mainang village, Alor Island, found microfilariae in the blood of 157 of 586 individuals (27%), with 77 of them (13%) exhibiting lymphedema of the leg.[4]

Parasite

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The microfilariae of Brugia timori are longer and morphologically distinct from those of Brugia malayi and Wuchereria bancrofti, with a cephalic space length-to-width ratio of about 3:1. B. timori more closely resembles the symptoms caused by B. malayi and morphologically resembles B. malayi.[5] The sheath of B. timori does not stain pink with Giemsa stain as is observed with B. malayi, however.[6][7]

Life cycle

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The life cycle is:[8]

  1. During feeding, mosquitos ingest the infective filariform from an infected host
  2. Inside the mosquito the microfilariae penetrate the midgut and migrate to muscle tissue to grow and undergo two molts into infective filariform larvae (no sexual reproduction occurs within the mosquito)
  3. The filariform larvae will migrate to the mouthparts of the mosquito
  4. Larvae enter the host's circulation and migrate to lymphatic vessels where they develop into microfilariae-producing adults. Here the adults can live for several years
  5. The infective filariform enter the circulation of the host to repeat the life cycle

Morphology

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B. timori microfilariae have nuclei that extend to the tip of the tail, which is also characteristic of B. malayi but not W. bancrofti.[5] B. timori microfilariae are slightly larger than B. malayi microfilariae.[5]

Endosymbiont

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Aside from vectoring Brugia species, mosquitoes also maintain Wolbachia spp. which has been found to be an obligate intracellular bacterial endosymbiont of Brugia spp.[8] Wolbachia supports essential biochemical pathways necessary for the survival of Brugia, especially processes such as embryogenesis and molting.[8]

Treatment

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Anthelmintics such as diethylcarbamazine and albendazole have shown promise in the treatment of Brugia timori filariasis.[9] Some researchers are confident that Brugia timori filariasis may be an eradicable disease.[10] Related filarial nematodes have been found highly sensitive to elimination of their endosymbiotic Wolbachia bacteria, and this may be a powerful attack route against Brugia timori as well.[citation needed]

See also

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References

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  1. ^ David HL, Edeson JF (June 1965). "Filariasis in Portuguese Timor, with observations on a new microfilaria found in man". Ann Trop Med Parasitol. 59 (2): 193–204. doi:10.1080/00034983.1965.11686299. PMID 14345284.
  2. ^ Partono F, Dennis DT, Atmosoedjono S, et al. (June 1977). "Brugia timori sp. n. (nematoda: filarioidea) from Flores Island, Indonesia". J. Parasitol. 63 (3): 540–6. doi:10.2307/3280019. JSTOR 3280019. PMID 864573.
  3. ^ Atmosoedjono S, Partono F, Dennis DT, Purnomo (January 1977). "Anopheles barbirostris (Diptera: Culicidae) as a vector of the timor filaria on Flores Island: preliminary observations". J. Med. Entomol. 13 (4–5): 611–3. doi:10.1093/jmedent/13.4-5.611. PMID 15122.
  4. ^ Supali T, Wibowo H, Rückert P, et al. (May 2002). "High prevalence of Brugia timori infection in the highland of Alor Island, Indonesia". Am. J. Trop. Med. Hyg. 66 (5): 560–5. doi:10.4269/ajtmh.2002.66.560. PMID 12201590.
  5. ^ a b c "Lymphatic Filariasis Endemic Countries and Territories." Lymphatic Filariasis Disease. May 2006. The Carter Center. 13 May 2006.
  6. ^ Purnomo, Dennis DT, Partono F (December 1977). "The microfilaria of Brugia timori (Partono et al. 1977 = Timor microfilaria, David and Edeson, 1964): morphologic description with comparison to Brugia malayi of Indonesia". J. Parasitol. 63 (6): 1001–6. doi:10.2307/3279833. JSTOR 3279833. PMID 22593.
  7. ^ Mathison BA, Couturier MR, Pritt BS (2019). Kraft CS (ed.). "Diagnostic Identification and Differentiation of Microfilariae". Journal of Clinical Microbiology. 57 (10). doi:10.1128/jcm.00706-19. PMC 6760958. PMID 31340993. e00706-19.
  8. ^ a b c LeAnne M Fox; Christopher L King (2013). "110 - Lymphatic Filariasis". In Alan J Magill; David R Hill; Tom Solomon; Edward T Ryan (eds.). Hunter's Tropical Medicine and Emerging Infectious Disease (ninth ed.). London: W.B. Saunders. pp. 815–822.
  9. ^ Oqueka T, Supali T, Ismid IS, et al. (July 2005). "Impact of two rounds of mass drug administration using diethylcarbamazine combined with albendazole on the prevalence of Brugia timori and of intestinal helminths on Alor Island, Indonesia". Filaria J. 4: 5. doi:10.1186/1475-2883-4-5. PMC 1201159. PMID 16014169.
  10. ^ Fischer P, Supali T, Maizels RM (August 2004). "Lymphatic filariasis and Brugia timori: prospects for elimination". Trends Parasitol. 20 (8): 351–5. doi:10.1016/j.pt.2004.06.001. PMID 15246315.
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