Parvovirus B19

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iParvovirus B19
Virus classification
Group: Group II (ssDNA) Family: Parvoviridae Genus: Erythrovirus Species: B19 virus

Parvovirus B19 (B19 virus) was the first (and, until 2005, only) human parvovirus to be discovered, by chance in 1975 by the Australian virologist Yvonne Cossart.^[1] It gained its name because it was discovered in well B19 of a large series of petri dishes apparently numbered in this way.^[2]

Parvovirus B19 is best known for causing a childhood exanthem called fifth disease or erythema infectiosum.^[3]

Contents 1 Virology 2 Transmission 3 Infectivity 4 Epidemiology 5 Role in disease 5.1 Fifth disease 5.2 Arthritis 5.3 Aplastic crisis 5.4 Hydrops fetalis 6 References

[edit] Virology

The B19 virus belongs to the Parvoviridae family of small DNA viruses.^[4] It is classified as Erythrovirus because of its capability to invade red blood cell precursors in the bone marrow.

[edit] Transmission

The virus is primarily spread by infected respiratory droplets; blood-borne transmission, however, has been reported.^[5] The secondary attack risk for exposed household persons is about 50%, and about half of that for classroom contacts.^[6]

[edit] Infectivity

B19 symptoms begins some six days after exposure and last about a week. Infected patients with normal immune systems are contagious before becoming symptomatic, but probably not after then.^[7] Individuals with B19 IgG antibodies are generally considered immune to recurrent infection, but reinfection is possible in a minority of cases.^[8] About half of adults are B19-immune due to a past infection.

[edit] Epidemiology

A significant increase in the number of cases is seen every three to four years; the last epidemic year was 1998. Outbreaks can arise especially in nurseries and schools.

Parvovirus B19 causes an infection in humans only; cat and dog parvoviruses do not infect humans. In contrast with small animals, there is no vaccine available for human parvovirus B19.

[edit] Role in disease

[edit] Fifth disease

After being infected, patients usually develop the illness after an incubation period of four to fourteen days. The disease commences with fever and malaise while the virus is most abundant in the bloodstream, and patients are usually no longer infectious once the characteristic rash of this disease has appeared.

Any age may be affected, although it is most common in children aged six to ten years.

[edit] Arthritis

In adults (and perhaps some children), parvovirus B19 can lead to a seronegative arthritis which is usually easily controlled with analgesics. Women are approximately twice as likely as men to experience arthritis after parvo virus infection. Possibly up to 15% of all new cases of arthritis are due to parvovirus, and a history of recent contact with a patient and positive serology generally confirms the diagnosis.^[7] This arthritis does not progress to other forms of arthritis. Typically joint symptoms last 1-3 weeks, but in 10-20% of those affected, it may last weeks to months.

[edit] Aplastic crisis

Although most patients have an arrest of erythropoiesis (production of red blood cells) during parvovirus infection, it causes worse problems in patients with sickle cell anemia, or with hereditary spherocytosis, who are heavily dependent on erythropoeisis due to the reduced lifespan of the red cells. This is termed "aplastic crisis". It is treated with blood transfusion. Sickle-cell patients will probably be the first candidates for a parvovirus B19 vaccine when it is developed.

[edit] Hydrops fetalis

Parvovirus infection in pregnant women is associated with hydrops fetalis due to severe fetal anemia, sometimes leading to miscarriage or stillbirth. The risk of fetal loss is about 10% if infection occurs before pregnancy week 20 (esp. between weeks 14-20), but minimal after then. This risk may be reduced with correct diagnosis of the anemia (by ultrasound scans) and treatment (by blood transfusions). Once the baby is born, there is evidence to suggest no developmental abnormalities due to B19 infection during pregnancy.

[edit] References

1. ^ Heegaard ED, Brown KE (2002). "Human parvovirus B19". Clin Microbiol Rev 15 (3): 485-505. PMID 12097253.
2. ^ Cossart YE, Field AM, Cant B, Widdows D (1975). "Parvovirus-like particles in human sera". Lancet 1 (7898): 72-3. PMID 46024.
3. ^ Vafaie J, Schwartz RA (2004). "Parvovirus B19 infections". Int J Dermatol 43 (10): 747-9. PMID 15485533.
4. ^ Brown KE (2004). "Variants of B19". Dev Biol (Basel) 118: 71-7. PMID 15645675.
5. ^ Pattison JR, Patou G (1996). Parvoviruses. In: Barron's Medical Microbiology (Barron S et al, eds.), 4th ed., Univ of Texas Medical Branch. (via NCBI Bookshelf) ISBN 0-9631172-1-1.
6. ^ Young NS, Brown KE (2004). "Parvovirus B19". N Engl J Med 350 (6): 586-97. PMID 14762186.
7. ^ ^{a b} Corcoran A, Doyle S (2004). "Advances in the biology, diagnosis and host-pathogen interactions of parvovirus B19". J Med Microbiol 53 (Pt 6): 459-75. PMID 15150324.
8. ^ Lehmann HW, von Landenberg P, Modrow S (2003). "Parvovirus B19 infection and autoimmune disease". Autoimmun Rev 2 (4): 218-23. PMID 12848949.

• Association of Medical Microbiologists page on parvovirus B19