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Avian influenza — known informally as avian flu or bird flu — refers to "influenza caused by viruses adapted to birds."[1][2][3][4][5][6][7] The type with the greatest risk is highly pathogenic avian influenza (HPAI).

"Bird flu" is a phrase similar to "swine flu," "dog flu," "horse flu," or "human flu" in that it refers to an illness caused by any of many different strains of influenza viruses that have adapted to a specific host. Out of the three types of influenza viruses (A, B, and C), influenza A virus is a zoonotic infection with a natural reservoir almost entirely in birds.[1] Avian influenza, for most purposes, refers to the influenza A virus.

Though influenza A is adapted to birds, it can also stably adapt and sustain person-to person transmission. [cite] Recentinfluenza research into the genes of the Spanish flu virus shows it to have genes adapted from both human and avian strains. Pigs can also be infected with human, avian, and swine influenza viruses, allow for mixtures of genes (reassortment) to create a new virus, which can cause an antigenic shift to a new influenza A virus subtype which most people have little to no immune protection. [cite]

Avian influenza strains are divided into two types based on their pathogenicity: high pathogenicity (HP) or low pathogenicity (LP). [cite] The most well-known HPAI strain, H5N1, appeared in China in 1996 also has low pathogenic strains found in North America. [cite CDC] Companion birds in captivity are unlikely to contract the virus and there has been no report of a companion bird with avian influenza since 2003. Pigeons do not contract or spread the virus.[10][11][12]

Genetics

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Genetic factors in distinguishing between "human flu viruses" and "avian flu viruses" include:

PB2: (RNA polymerase): Amino acid (or residue) position 627 in the PB2 protein encoded by the PB2 RNA gene. Until H5N1, all known avian influenza viruses had a Glu at position 627, while all human influenza viruses had a Lys.[citation needed]
HA: (hemagglutinin): Avian influenza HA viruses bind alpha 2-3 sialic acid receptors, while human influenza HA viruses bind alpha 2-6 sialic acid receptors. Swine influenza viruses have the ability to bind both types of sialic acid receptors. Hemagglutinin is the major antigen of the virus against which neutralizing antibodies are produced, and influenza virus epidemics are associated with changes in its antigenic structure. This was originally derived from pigs, and should technically be referred to as "pig flu".[2]

Subtypes

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There are many subtypes of avian influenza viruses, but only some strains of five subtypes have been highly pathogenic in humans. These are types H5N1, H7N3, H7N7, H7N9, and H9N2.[3] At least one person, an elderly woman in Jiangxi Province, China, died of pneumonia in December 2013 from the H10N8 strain, the first human fatality confirmed to be caused by that strain.[4]

Spread

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Most human cases of the avian flu are a result of either handling dead infected birds or from contact with infected fluids. It can also be spread through contaminated surfaces and droppings. While most wild birds mainly have only a mild form of the H5N1 strain, once domesticated birds such as chickens or turkeys are infected, it can become much more deadly because the birds are often in close contact. There is currently a large threat of this in Asia with infected poultry due to low hygiene conditions and close quarters. Although it is easy for humans to contract the infection from birds, human-to-human transmission is more difficult without prolonged contact. However, public health officials are concerned that strains of avian flu may mutate to become easily transmissible between humans.[5] Some strains of avian influenza are present in the intestinal tract of large numbers of shore birds and water birds, but these strains rarely cause infection.[6]

Spreading of H5N1 from Asia to Europe is much more likely caused by both legal and illegal poultry trades than dispersing through wild bird migrations, being that in recent studies, there were no secondary rises in infection in Asia when wild birds migrate south again from their breeding grounds. Instead, the infection patterns followed transportation such as railroads, roads, and country borders, suggesting poultry trade as being much more likely. While there have been strains of avian flu to exist in the United States, such as Texas in 2004, they have been extinguished and have not been known to infect humans.

Highly pathogenic strains spread quickly among flocks and can destroy a flock within 28 hours; the less pathogenic strains may affect egg production but are much less deadly.[5]

Examples of avian influenza A virus strains:[7]

HA subtype
designation
NA subtype
designation
Avian influenza A viruses
H1 N1 A/duck/Alberta/35/76(H1N1)
H1 N8 A/duck/Alberta/97/77(H1N8)
H2 N9 A/duck/Germany/1/72(H2N9)
H3 N8 A/duck/Ukraine/63(H3N8)
H3 N8 A/duck/England/62(H3N8)
H3 N2 A/turkey/England/69(H3N2)
H4 N6 A/duck/Czechoslovakia/56(H4N6)
H4 N3 A/duck/Alberta/300/77(H4N3)
H5 N3 A/tern/South Africa/300/77(H4N3)
H5 N4 A/Ethiopia/300/77(H6N6)
H5 N9 A/turkey/Ontario/7732/66(H5N9)
H5 N1 A/chick/Scotland/59(H5N1)
H6 N2 A/turkey/Massachusetts/3740/65(H6N2)
H6 N8 A/turkey/Canada/63(H6N8)
H6 N5 A/shearwater/Australia/72(H6N5)
H6 N6 A/jyotichinara/Ehiopia/73(H6N6)
H6 N1 A/duck/Germany/1868/68(H6N1)
H7 N7 A/fowl plague virus/Dutch/27(H7N7)
H7 N1 A/chick/Brescia/1902(H7N1)
H7 N9 A/chick/China/2013(H7N9)
H7 N3 A/turkey/England/639H7N3)
H7 N1 A/fowl plague virus/Rostock/34(H7N1)
H8 N4 A/turkey/Ontario/6118/68(H8N4)
H9 N2 A/turkey/Wisconsin/1/66(H9N2)
H9 N6 A/duck/Hong Kong/147/77(H9N6)
H9 N6 A/duck/Hong Kong/147/77(H9N6)
H9 N8 A/manishsurpur/Malawi/149/77(H9N8)
H9 N7 A/turkey/Scotland/70(H9N7)
H10 N8 A/quail/Italy/1117/65(H10N8)
H11 N6 A/duck/England/56(H11N6)
H11 N9 A/duck/Memphis/546/74(H11N9)
H12 N5 A/duck/Alberta/60/76/(H12N5)
H13 N6 A/gull/Maryland/704/77(H13N6)
H14 N4 A/duck/Gurjev/263/83(H14N4)
H15 N9 A/shearwater/Australia/2576/83(H15N9)

Influenza pandemic

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Pandemic flu viruses have some avian flu virus genes and usually some human flu virus genes. Both the H2N2 and H3N2 pandemic strains contained genes from avian influenza viruses. The new subtypes arose in pigs coinfected with avian and human viruses, and were soon transferred to humans. Swine were considered the original "intermediate host" for influenza, because they supported reassortment of divergent subtypes. However, other hosts appear capable of similar coinfection (e.g., many poultry species), and direct transmission of avian viruses to humans is possible.[8] The Spanish flu virus strain may have been transmitted directly from birds to humans.[9]

In spite of their pandemic connection, avian influenza viruses are noninfectious for most species. When they are infectious, they are usually asymptomatic, so the carrier does not have any disease from it. Thus, while infected with an avian flu virus, the animal does not have a "flu". Typically, when illness (called "flu") from an avian flu virus does occur, it is the result of an avian flu virus strain adapted to one species spreading to another species (usually from one bird species to another bird species). So far as is known, the most common result of this is an illness so minor as to be not worth noticing (and thus little studied). But with the domestication of chickens and turkeys, humans have created species subtypes (domesticated poultry) that can catch an avian flu virus adapted to waterfowl and have it rapidly mutate into a form that kills over 90% of an entire flock in days, can spread to other flocks and kill 90% of them, and can only be stopped by killing every domestic bird in the area. Until H5N1 infected humans in the 1990s, this was the only reason avian flu was considered important. Since then, avian flu viruses have been intensively studied; resulting in changes in what is believed about flu pandemics, changes in poultry farming, changes in flu vaccination research, and changes in flu pandemic planning.

Influenza A/H5N1 has evolved into a flu virus strain that infects more species than any previously known strain, is deadlier than any previously known strain, and continues to evolve, becoming both more widespread and more deadly. This caused Robert G. Webster, a leading expert on avian flu, to publish an article titled "The world is teetering on the edge of a pandemic that could kill a large fraction of the human population" in American Scientist. He called for adequate resources to fight what he sees as a major world threat to possibly billions of lives.[10]

Vaccines for poultry have been formulated against several of the avian H5N1 influenza varieties. Vaccination of poultry against the ongoing H5N1 epizootic is widespread in certain countries. Some vaccines also exist for use in humans, and others are in testing, but none have been made available to civilian populations, nor are produced in quantities sufficient to protect more than a tiny fraction of the Earth's population in the event of an H5N1 pandemic outbreak. The World Health Organization has compiled a list of known clinical trials of pandemic influenza prototype vaccines, including those against H5N1.[11]

H5N1

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The highly pathogenic influenza A virus subtype H5N1 is an emerging avian influenza virus that has been causing global concern as a potential pandemic threat. It is often referred to simply as "bird flu" or "avian influenza", even though it is only one subtype of avian influenza-causing virus.

H5N1 has killed millions of poultry in a growing number of countries throughout Asia, Europe, and Africa. Health experts are concerned that the coexistence of human flu viruses and avian flu viruses (especially H5N1) will provide an opportunity for genetic material to be exchanged between species-specific viruses, possibly creating a new virulent influenza strain that is easily transmissible and lethal to humans. The mortality rate for humans with H5N1 is 60%.

Since the first H5N1 outbreak occurred in 1987, there has been an increasing number of HPAI H5N1 bird-to-human transmissions, leading to clinically severe and fatal human infections. Because a significant species barrier exists between birds and humans, the virus does not easily cross over to humans, however some cases of infection are being researched to discern whether human-to-human transmission is occurring.[8] More research is necessary to understand the pathogenesis and epidemiology of the H5N1 virus in humans. Exposure routes and other disease transmission characteristics, such as genetic and immunological factors that may increase the likelihood of infection, are not clearly understood.[12]

The first known transmission of H5N1 to a human occurred in Hong Kong in 1997, when there was an outbreak of 18 human cases; 6 deaths were confirmed. None of the infected people worked with poultry. After culling all of the poultry in the area, no more cases were diagnosed.[6] On January 18, 2009, a 27-year-old woman from eastern China died of bird flu, Chinese authorities said, making her the second person to die from the deadly virus at that time. Two tests on the woman were positive for H5N1 avian influenza, said the ministry, which did not say how she might have contracted the virus.[13] In 2006, the first human-to-human transmissions likely occurred, when 7 members of a family in Sumatra became infected after contact with a family member who had worked with infected poultry.[14]

Although millions of birds have become infected with the virus since its discovery, 359 humans have died from the H5N1 in twelve countries according to WHO data as of August 10, 2012.[15]

The avian flu has claimed at least 300 human lives in Azerbaijan, Cambodia, China, Egypt, Indonesia, Iraq, Laos, Nigeria, Pakistan, Thailand, Turkey, and Vietnam. Epidemiologists are concerned that the virus could mutate to pass from human to human; however, the current A/H5N1 virus does not transmit easily from human to human. If this form of transmission occurs, another pandemic could result. Thus, disease-control centers around the world are making avian flu a top priority. These organizations encourage poultry-related operations to develop a preemptive plan to prevent the spread of H5N1 and its potentially pandemic strains. The recommended plans center on providing protective clothing for workers and isolating flocks to prevent the spread of the virus.[14]

The Thailand outbreak of avian flu caused massive economic losses, especially among poultry workers. Infected birds were culled and slaughtered. The public lost confidence with the poultry products, thus decreasing the consumption of chicken products. This also elicited a ban from importing countries. There were, however, factors which aggravated the spread of the virus, including bird migration, cool temperature (increases virus survival) and several festivals at that time.[16]

H7N9

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Influenza A virus subtype H7N9 is a novel avian influenza virus first reported to have infected humans in 2013 in China.[17] Most of the reported cases of human infection have resulted in severe respiratory illness.[18] In the month following the report of the first case, more than 100 people had been infected, an unusually high rate for a new infection; a fifth of those patients had died, a fifth had recovered, and the rest remained critically ill.[19] The World Health Organization (WHO) has identified H7N9 as "...an unusually dangerous virus for humans."[20] As of June 30, 133 cases have been reported, resulting in the deaths of 43.

Research regarding background and transmission is ongoing.[21] It has been established that many of the human cases of H7N9 appear to have a link to live bird markets.[22] As of July 2013, there had been no evidence of sustained human-to-human transmission, however a study group headed by one of the world’s leading experts on avian flu reported that several instances of human-to-human infection were suspected.[23] It has been reported that H7N9 virus does not kill poultry, which will make surveillance much more difficult. Researchers have commented on the unusual prevalence of older males among H7N9-infected patients.[24] While several environmental, behavioral, and biological explanations for this pattern have been proposed,[25] as yet, the reason is unknown.[26] Currently no vaccine exists, but the use of influenza antiviral drugs known as neuraminidase inhibitors in cases of early infection may be effective.[27]

The number of cases detected after April fell abruptly. The decrease in the number of new human H7N9 cases may have resulted from containment measures taken by Chinese authorities, including closing live bird markets, or from a change in seasons, or possibly a combination of both factors. Studies indicate that avian influenza viruses have a seasonal pattern, thus it is thought that infections may pick up again when the weather turns cooler in China.[28]

In domestic animals

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Several domestic species have been infected with and shown symptoms of H5N1 viral infection, including cats, dogs, ferrets, pigs, and birds.[29]

Birds

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Attempts are made in the United States to minimize the presence of HPAI in poultry through routine surveillance of poultry flocks in commercial poultry operations. Detection of a HPAI virus may result in immediate culling of the flock. Less pathogenic viruses are controlled by vaccination, which is done primarily in turkey flocks (ATCvet codes: QI01AA23 (WHO) for the inactivated fowl vaccine, QI01CL01 (WHO) for the inactivated turkey combination vaccine).[30]

Seals

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A recent strain of the virus is able to infect the lungs of seals.[31]

Cats

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Avian influenza in cats can show a variety of symptoms and usually lead to death. Cats are able to get infected by either consuming an infected bird or by contracting the virus from another infected cat.

Prevention

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People who do not regularly come into contact with birds are not at high risk for contracting avian influenza. Those at high risk include poultry farm workers, animal control workers, wildlife biologists, and ornithologists who handle live birds.[5] Organizations with high-risk workers should have an avian influenza response plan in place before any cases have been discovered. Biosecurity of poultry flocks is also important for prevention. Flocks should be isolated from outside birds, especially wild birds, and their waste; vehicles used around the flock should be regularly disinfected and not shared between farms; and birds from slaughter channels should not be returned to the farm.[32]

A patient suffering from the H5N6 strain of avian flu died in Shenzhen City in south China's Guangdong Province, local authorities said. The patient, a 26-year-old woman, died on Dec. 30. Gene analysis of a sample from the Shenzhen patient indicated her infection was from contact with live poultry or a poultry market, said an expert with the Shenzhen Municipal Disease Control and Prevention Center. Another infected patient in Guangdong, a 40-year-old woman from Zhaoqing City, is in serious condition and receiving hospital treatment, according to an official with the Zhaoqing Municipal Health and Family Planning Bureau. Guangdong has reported three H5N6 infections so far. The world's first human H5N6 infection was reported in May 2014 in southwest China's Sichuan Province. http://hisz.rsoe.hu/alertmap/database/index.php?pageid=event_desc&edis_id=BH-20160105-51566-CHN

With proper infection control and use of personal protective equipment (PPE), the chance of infection is low. Protecting the eyes, nose, mouth, and hands from virus particles is important for prevention because these are the most common ways for the virus to enter the body. Maintaining personal hygiene is important. Appropriate personal protective equipment includes aprons or coveralls, gloves, boots or boot covers, and a head cover or hair cover. Disposable PPE is recommended. An N-95 respirator and unvented/indirectly vented safety goggles are also part of appropriate PPE. A powered air purifying respirator (PAPR) with hood or helmet and face shield is also an option.[6]

Proper reporting of an isolated case can help to prevent spread. The Centers for Disease Control and Prevention (US) recommendation is that if a worker develops symptoms within 10 days of working with infected poultry or potentially contaminated materials, they should seek care and notify their employer, who should notify public health officials.[6]

See also

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References

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  1. ^ "Transmission of Influenza Viruses from Animals to People". www.cdc.gov. Retrieved 2016-05-12. {{cite web}}: Text "CDC" ignored (help); Text "Seasonal Influenza (Flu)" ignored (help)
  2. ^ Hiromoto, Yasuaki. "Evolutionary characterization of the six internal genes of H5N1 human influenza A virus". Journal of General Virology. Retrieved 2013-04-20.
  3. ^ Leong HK, Goh CS, Chew ST; et al. (June 2008). "Prevention and control of avian influenza in Singapore" (PDF). Ann. Acad. Med. Singap. 37 (6): 504–9. PMID 18618063. Retrieved 2009-04-15.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  4. ^ "China reports first human H10N8 avian flu death - CNN.com". CNN. 18 December 2013.
  5. ^ a b c "Avian Influenza". NIOSH Workplace Safety and Health Topic. National Institute for Occupational Safety and Health.
  6. ^ a b c d "Recommendations for Worker Protection and Use of Personal Protective Equipment (PPE) to Reduce Exposure to Highly Pathogenic Avian Influenza A H5 Viruses : Avian Influenza (Flu)". www.cdc.gov. Retrieved 2015-07-25.
  7. ^ Cox, N.; Kawaoka (1998). "22". In Mahy B. and Collier L. (ed.). Topley and Wilson's Microbiology and Microbial Infections. Vol. 1 Virology. Y. (9 ed.). Arnold. p. 415. ISBN 0-340-61470-6.
  8. ^ a b Blanchard, Ben. "China says son likely infected father with bird flu." Reuters 10 Jan 2008.
  9. ^ Chapter Two : Avian Influenza by Timm C. Harder and Ortrud Werner
  10. ^ Webster, R. G. and Walker, E. J. (2003). "The world is teetering on the edge of a pandemic that could kill a large fraction of the human population". American Scientist. 91 (2): 122. doi:10.1511/2003.2.122.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  11. ^ "Research and development". WHO.
  12. ^ World Health Organization. (2006). Avian influenza (" bird flu") – The Disease in Humans. Retrieved April 6, 2006.
  13. ^ "Bird Flu Claims More Lives In Shanghai". Forbes.
  14. ^ a b Kullman, Greg; et al. (May 2008). "Protecting Poultry Workers from Avian Influenza (Bird Flu)". NIOSH Alert: Publication No. 2008-128. National Institute for Occupational Safety and Health. Archived from the original on 10 January 2009. Retrieved December 18, 2008. {{cite web}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  15. ^ "Cumulative number of confirmed human cases for avian influenza A(H5N1) reported to WHO, 2003-2012" (PDF). World Health Organization. Retrieved 5 September 2012.
  16. ^ Tiensn, Thanawat; et al. "Highly Pathogenic Avian Influenza H5N1 Thailand, 2004". Emerging Infectious Disease. 2005. CDC. 11 (11): 1661–1672. doi:10.3201/eid1111.050608.
  17. ^ "The fight against bird flu". Nature. 496 (7446): 397. April 24, 2013. doi:10.1038/496397a. PMID 23627002. Retrieved 25 April 2013.
  18. ^ Li, Q.; Zhou, L.; Zhou, M.; Chen, Z.; Li, F.; Wu, H.; Xiang, N.; Chen, E.; et al. (April 24, 2013). "Preliminary Report: Epidemiology of the Avian Influenza A (H7N9) Outbreak in China". New England Journal of Medicine. 370 (6): 520–32. doi:10.1056/NEJMoa1304617. PMID 23614499. Archived from the original on May 2, 2013. Retrieved April 25, 2013. {{cite journal}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  19. ^ Gallagher, James (May 3, 2013). "Q&A: H7N9 bird flu". BBC News. Retrieved May 4, 2013.
  20. ^ Shadbolt, Peter (April 25, 2013). "WHO: H7N9 virus 'one of the most lethal so far'". CNN. Retrieved 25 April 2013.
  21. ^ "Frequently Asked Questions on human infection with influenza A(H7N9) virus, China". World Health Organization. 5 April 2013. Retrieved 9 April 2013.
  22. ^ "OIE expert mission finds live bird markets play a key role in poultry and human infections with influenza A(H7N9)". Paris: World Organisation for Animal Health. April 30, 2013. Retrieved May 2, 2013.
  23. ^ Study puts troubling traits of H7N9 avian flu virus on display (July 10, 2013)
  24. ^ Arima, Y.; Zu, R.; Murhekar, M.; Vong, S.; Shimada, T. (2013). "Human infections with avian influenza A(H7N9) virus in China: preliminary assessments of the age and sex distribution". Western Pacific Surveillance and Response Journal. 4 (2). WHO: 1–3. doi:10.5365/wpsar.2013.4.2.005.
  25. ^ Skowronski, DM; Janjua, NZ; Kwindt, TL; De Serres, G (25 April 2013). "Virus-host interactions and the unusual age and sex distribution of human cases of influenza A(H7N9) in China, April 2013". Eurosurveillance. 18 (17). European Centre for Disease Prevention and Control. Retrieved 3 May 2013.
  26. ^ Experts: Past exposures may help explain H7N9 age profile, Center for Infectious Disease Research & Policy, University of Minnesota, April 26, 2013.
  27. ^ Schnirring, Lisa (April 1, 2013). "China reports three H7N9 infections, two fatal". CIDRAP News. Retrieved May 4, 2013.
  28. ^ Avian Influenza A H7N9 - CDC
  29. ^ National Wildlife Health Center, "List of Species Affected by H5N1 (Avian Influenza)," USGS 10 May 2010
  30. ^ Thacker E, Janke B (February 2008). "Swine influenza virus: zoonotic potential and vaccination strategies for the control of avian and swine influenzas". The Journal of Infectious Diseases. 197 Suppl 1: S19–24. doi:10.1086/524988. PMID 18269323.
  31. ^ & Bronchioles. "Bird flu has jumped to baby seals, scientists discover". CNN. 31 July 2012. Retrieved 31 July 2012.
  32. ^ "CDC - NIOSH Publications and Products - Protecting Poultry Workers from Avian Influenza (Bird Flu) (2008-128)". www.cdc.gov. Retrieved 2015-07-31.

Other Sources

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International
United Nations System Coordinator for Avian and Human Influenza (UNSIC).
World Health Organisation (WHO)
Food and Agriculture Organization of the UN (FAO)
World Organisation for Animal Health (OIE)
United States
Europe


[[Category:Animal virology]] [[Category:Bird diseases]] [[Category:Avian influenza| ]] [[Category:Poultry diseases]] [[Category:Agricultural health and safety]]