Brugia malayi

	WikiDoc Resources for Brugia malayi
Articles
Most recent articles on Brugia malayi Most cited articles on Brugia malayi Review articles on Brugia malayi Articles on Brugia malayi in N Eng J Med, Lancet, BMJ
Media
Powerpoint slides on Brugia malayi Images of Brugia malayi Photos of Brugia malayi Podcasts & MP3s on Brugia malayi Videos on Brugia malayi
Evidence Based Medicine
Cochrane Collaboration on Brugia malayi Bandolier on Brugia malayi TRIP on Brugia malayi
Clinical Trials
Ongoing Trials on Brugia malayi at Clinical Trials.gov Trial results on Brugia malayi Clinical Trials on Brugia malayi at Google
Guidelines / Policies / Govt
US National Guidelines Clearinghouse on Brugia malayi NICE Guidance on Brugia malayi NHS PRODIGY Guidance FDA on Brugia malayi CDC on Brugia malayi
Books
Books on Brugia malayi
News
Brugia malayi in the news Be alerted to news on Brugia malayi News trends on Brugia malayi
Commentary
Blogs on Brugia malayi
Definitions
Definitions of Brugia malayi
Patient Resources / Community
Patient resources on Brugia malayi Discussion groups on Brugia malayi Patient Handouts on Brugia malayi Directions to Hospitals Treating Brugia malayi Risk calculators and risk factors for Brugia malayi
Healthcare Provider Resources
Symptoms of Brugia malayi Causes & Risk Factors for Brugia malayi Diagnostic studies for Brugia malayi Treatment of Brugia malayi
Continuing Medical Education (CME)
CME Programs on Brugia malayi
International
Brugia malayi en Espanol Brugia malayi en Francais
Business
Brugia malayi in the Marketplace Patents on Brugia malayi
Experimental / Informatics
List of terms related to Brugia malayi

Brugia malayi
	B. malayi, blood smear, Giemsa stain.; B. malayi, blood smear, Giemsa stain.
Scientific classification
Kingdom:	Animalia;
Phylum:	Nematoda;
Class:	Secernentea;
Order:	Spirurida;
Family:	Filariidae;
Genus:	Brugia;
Species:	B. malayi;
Binomial name
	Brugia malayi; Brug 1927

This page is about microbiologic aspects of the organism(s). For clinical aspects of the disease, see Filariasis.

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Brugia malayi is a filarial roundworm which causes filariasis in humans.^[1] Identified by Lichtenstein and named by Brug in 1927 as distinct from Wuchereria bancrofti, they called it Filaria malayi. In 1958 the separate genus Brugia was proposed by Buckley, and Filaria malayi became known as Brugia malayi.

B. malayi is limited to tropical regions of Asia.

Life cycle

Infective larvae are transmitted by infected biting arthropods during a blood meal. The larvae migrate to the appropriate site of the host's body, where they develop into microfilariae-producing adults. The adults dwell in various human tissues where they can live for several years. The agents of lymphatic filariasis reside in lymphatic vessels and lymph nodes. B. malayi dwells particularly in the lymphatics, as with Wuchereria bancrofti. The female worms produce microfilariae which circulate in the blood.

The microfilariae infect mosquitoes. Inside the mosquito, the microfilariae develop in 1 to 2 weeks into infective filariform (third-stage) larvae. During a subsequent blood meal by the insect, the larvae infect the vertebrate host. They migrate to the lymphatics, where they develop into adults, a slow process that can require up to 18 months.

Recently B. malayi was found to contain an endosymbiotic bacterium, Wolbachia, in all life stages.^[2] The genome sequence of this bacterium was determined at New England Biolabs. Experimental results indicate that the Wolbachia can be killed by treatment of the human host with doxycycline. Nematodes cured of the Wolbachia are sterile and have increased morbidity.

Laboratory diagnosis

Identification of microfilariae by microscopic examination is the most practical diagnostic procedure.

Examination of blood samples will allow identification of microfilariae of Brugia malayi. It is important to time the blood collection with the known periodicity of the microfilariae. The blood sample can be a thick smear, stained with Giemsa or hematoxylin and eosin. For increased sensitivity, concentration techniques can be used. These include centrifugation of the blood sample lyzed in 2% formalin (Knott's technique), or filtration through a Nucleopore membrane.

Antigen detection using an immunoassay for circulating filarial antigens constitutes a useful diagnostic approach, because microfilaremia can be low and variable. Molecular diagnosis using polymerase chain reaction is also possible.

Identification of adult worms is possible from tissue samples collected during nodulectomies (onchocerciasis), or during subcutaneous biopsies or worm removal from the eye (loiasis).

Genome deciphered

On September 20, 2007, scientists mapped the genome or genetic content of Brugia malayi, worm which cause elephantiasis (lymphatic filariasis). Figuring out the content of the genes might lead to development of new drugs and vaccines.^[3]

References

↑ Cross JH (1996). Filarial Nematodes. In: Baron's Medical Microbiology (Baron S et al, eds.) (4th ed. ed.). Univ of Texas Medical Branch. (via NCBI Bookshelf) ISBN 0-9631172-1-1.CS1 maint: Extra text (link)
↑ Taylor MJ (2002). "A new insight into the pathogenesis of filarial disease". Curr Mol Med. 2 (3): 299–302. PMID 12041732.
↑ Reuters, Genome deciphered for elephantiasis-causing worm

The article is based on the public domain (U.S. Government website) source US Dept. of Health and Human Services / Center for Disease Control: Filariasis

[Baron-1] Cross JH (1996). Filarial Nematodes. In: Baron's Medical Microbiology (Baron S et al, eds.) (4th ed. ed.). Univ of Texas Medical Branch. (via NCBI Bookshelf) ISBN 0-9631172-1-1.CS1 maint: Extra text (link)

[Taylor_2002-2] Taylor MJ (2002). "A new insight into the pathogenesis of filarial disease". Curr Mol Med. 2 (3): 299–302. PMID 12041732.

[3] Reuters, Genome deciphered for elephantiasis-causing worm

[1]

[2]

[3]