Last updated January 6, 2005
Agent
Avian Influenza in Humans
The 2003-2004 Outbreak of H5N1 in Asia
Clinical and Treatment Considerations
Vaccine Development
WHO Travel Recommendations
Use of Seasonal Influenza Vaccine in Humans at Risk for H5N1 Infection
Surveillance Considerations
Influenza Pandemic Considerations
Infection Control
References
Avian influenza is caused by influenza A virus. More information about avian influenza in bird populations can be found in the document Avian Influenza (Bird Flu): Agricultural and Wildlife Considerations.
In the past several years, it has become clear that avian influenza viruses can infect humans. Situations where avian influenza viruses have been recognized in humans include the following:
Human Cases of Avian Influenza | ||||
Year |
Subtype |
No. of Cases |
Location |
Comments |
1997 |
H5N1 |
18 (6 deaths) |
Hong Kong |
Cases were linked to an outbreak of H5N1 in poultry. Sustained person-to-person transmission did not occur and the outbreak stopped when all birds in the Hong Kong commercial poultry industry (about 1.4 million) were slaughtered (see References: Yuen 1998). |
1999 |
H9N2 |
2 (children ages 4 yr, 13 mo) |
Hong Kong |
Both case-patients had been hospitalized with influenza-like illness and both recovered uneventfully (see References: Peiris 1999, Uyeki 2002). No additional cases of person-to-person transmission occurred. Further investigation demonstrated that H9N2 strains were circulating in poultry in Hong Kong and China, although the viruses were not highly pathogenic for birds. |
2002 |
H7N2 |
1 |
United States (Virginia) |
Evidence of infection was found in one person in Virginia following a poultry outbreak. |
2003 |
H5N1 |
2 (1 death) |
Hong Kong |
The 2 case-patients were family members who had recently traveled to China (see References: CDC: Basic information about avian influenza). A third family member died while in China of an undiagnosed respiratory illness). No direct link between these cases and H5N1infection in poultry was identified. |
2003 |
H7N7 |
69 (1 death) |
The Netherlands |
During an outbreak of H7N7 avian influenza in poultry, infection spread to poultry workers and their families in the area (see References: Fouchier 2004). Most patients had conjunctivitis and several complained of influenza-like illness. The death occurred in a 57-year-old veterinarian. Subsequent serologic testing demonstrated that additional case-patients had asymptomatic infection. |
2003 |
H7N2 |
1 |
New York |
The source of exposure was not determined (see References: NIAID: Significant dates in influenza history). |
2003-2005 (ongoing) |
H5N1 |
By year-end 2004, 27 confirmed cases of H5N1 with 20 deaths had been reported from Vietnam and 17 confirmed cases with 12 deaths had been reported from Thailand. Three additional cases have been reported from Vietnam (see below). |
Vitenam, Thailand |
Over 40 cases have been associated with an ongoing extensive outbreak of avian influenza in poultry (see References: WHO: Cumulative number of confirmed human cases of avian influenza A(H5N1) since 28 January 2004). More information on this situation can be found in the section below. |
2004 |
H7N3 |
2 |
Canada (British Columbia) |
Poultry workers became ill during an outbreak of H7N3 avian influenza in poultry (see References: Health Canada 2004). |
2004 |
H9N2 |
1 (child) |
Hong Kong |
The source of infection remains unknown (see References: National Institute of Allergy and Infectious Diseases: Focus on the Flu). |
2004 |
H10N7 |
2 (infants) |
Egypt |
One child’s father was a poultry merchant (see References: NIAID: Significant dates in influenza history). |
An outbreak of HPAI caused by a strain of H5N1 avian influenza started in Asia in the fall of 2003 and spread in domestic poultry farms at an historically unprecedented rate. The outbreak tapered off in spring 2004 but in summer re-emerged in several areas and is still of great concern. The strain causing the outbreak is genetically distinct from the one isolated from humans in Hong Kong in 2003.
Areas affected by H5N1 avian influenza in poultry include:
To date, human cases have been reported in Vietnam and Thailand. By year-end 2004, 27 confirmed cases of H5N1 with 20 deaths from Vietnam and 17 confirmed cases with 12 deaths from Thailand were included in WHO´s official tally (see References: WHO: Cumulative number of confirmed human cases of avian influenza A(H5N1) since 28 January 2004; WHO: Avian influenza—situation in Thailand; additional fatal case confirmed). Three additional cases, 2 of them fatal, were reported from Vietnam during the last days of 2004 and first week of January 2005; further confirmatory testing is still in progress (see References: WHO: Avian influenza: situation in Viet Nam—Jan 6, 2005, update). Guidelines have been issued from WHO and CDC regarding reporting (see References: WHO: Cumulative number of confirmed human cases of avian influenza A(H5N1) since 28 January 2004; CDC: Outbreaks of avian influenza A (H5N1) in Asia and interim recommendations for evaluation and reporting of suspected cases—United States, 2004).
Sustained person-to-person transmission has not occurred to date, although a suspected person-to-person transmission in a family cluster, thought to be an isolated event, occurred in Thailand in fall 2004 (see References: WHO: Avian influenza—situation in Thailand; status of pandemic vaccine development). Genetic analysis of the strain circulating indicates that no reassortment with human genes has occurred. However, the virus has shown an ability to jump species, infecting cats, pigs, tigers, and leopards, and a summer 2004 study showed that the virus was causing increasingly severe disease when injected into laboratory mice (see References: Chen 2004).
Updated information on human cases of H5N1 influenza can be found in CIDRAP News avian flu stories on this Web site.
A recent report of avian influenza A (H5N1) in 10 patients in Vietnam (see References: Hien 2004) demonstrated the following clinical features of the illness:
The 2004 H5N1 strain is resistant to amantadine and rimantadine, complicating treatment and prophylaxis for human infections. The neuraminidase inhibitors are generally effective against influenza A and may be useful in treatment of and prophylaxis against H5N1 influenza, although the clinical utility of neuraminidase inhibitors in treating patients with H5N1 influenza is not yet known.
Another report involving 12 confirmed H5N1 influenza cases from Thailand showed similar findings (see References: Chotpitayasunondh 2005). Laboratory tests on admission demonstrated leukopenia in seven (58%), lymphopenia in seven (58%), and thrombocytopenia in four (33%). Eight (67%) patients died. Acute respiratory distress syndrome (ARDS) was associated with a fatal outcome, and leukopenia and thrombocytopenia at time of admission were associated with development of ARDS. All 12 patients had abnormal chest radiographs by 7 days after onset of fever; two patients had interstitial infiltrates and 10 had patchy lobar infiltrates in a variety of patterns.
Because of concerns about the pandemic potential of H5N1, WHO has been working with laboratories in the WHO influenza network to develop vaccines against this subtype (see References: WHO: Development of a vaccine effective against avian influenza H5N1).
As of Feb 11, 2004, WHO has released the following advice to international travelers regarding H5N1 influenza (see References: WHO: Advice to international travelers):
On January 30, 2004, WHO released guidelines for the use of seasonal influenza vaccine among persons at risk for H5N1 influenza (see References: WHO: Guidelines for the use of seasonal influenza vaccine in humans at risk of H5N1 infection). WHO is recommending targeted use of seasonal influenza vaccine to reduce the potential for humans to be infected with H5N1 at the same time that they are harboring a human influenza strain. This will decrease the opportunity for genetic reassortment of the avian H5N1 strain with genes from a human (H1 or H3) strain and thereby reduce the likelihood that a novel pandemic strain will emerge from the current situation in Asia.
Groups recommended for vaccination include:
According to current recommendations from CDC (see References: CDC: Outbreaks of avian influenza A (H5N1) in Asia and interim recommendations for evaluation and reporting of suspected cases—United States, 2004), testing for H5N1 of patients hospitalized in the United States is indicated for patients who have both of the following conditions:
Testing for influenza A (H5N1) also should be considered for patients with all of the following:
The Centers for Disease Control and Prevention (CDC) recommends the following for laboratory testing of clinical specimens from patients with suspected H5N1 influenza A:
Past influenza pandemics occurring during the 20th century apparently all arose from the Eurasian avian lineage of viruses. These strains underwent genetic reassortment, most likely in pigs, before spreading widely among humans. It is unclear whether reassortment in another animal host is necessary or whether an avian strain could directly cause a global pandemic in humans (see References: Webster 1997).
Of the avian influenza subtypes, H5N1 is of concern for the following reasons (see References: WHO: Avian influenza fact sheet):
The current H5N1 strain circulating in Asia appears to be highly pathogenic for humans, and immunity in the human population is generally lacking. However, the strain has not been shown to be easily transmitted between humans, and sustained person-to-person transmission has not occurred. If the virus continues to circulate widely among poultry, it has a greater potential to infect humans and other animals (such as pigs), where genetic reassortment could take place and create a new pandemic strain.
More information can be found in the Pandemic Influenza section of this Web site.
Recently, WHO developed guidelines on infection control for management of patients with H5N1 avian influenza (see References: WHO: Influenza A [H5N1]: WHO interim infection control guidelines for health care facilities). The WHO infection control guidelines recommend that the following precautions be implemented for patients with H5N1 influenza:
For adults and children over 12 years of age, these precautions should be implemented at the time of admission and maintained until 7 days after resolution of fever. For children 12 and under, precautions should be continued until 21 days have lapsed from onset of illness.
The WHO guidelines also recommend that all healthcare workers who may come into contact with the H5N1 virus or with infected patients should be vaccinated with the current WHO-recommended vaccine. Although this will not protect against H5N1 influenza A, it will help avoid simultaneous infection with other influenza strains and may thereby decrease the risk of genetic reassortment.
CDC. Basic Information about avian influenza (bird flu), Jan 29, 2004 [Web page]
CDC. Outbreaks of avian influenza A (H5N1) in Asia and interim recommendations for evaluation and reporting of suspected cases: United States, 2004. MMWR 2004 Feb 13;53(5):97-100 [Full text]
Chen H, Deng G, Li Z, et al. The evaluation of H5N1 influenza viruses in ducks in southern China. Proc Nat Acad Sci 2004 Jul 13;101(28):10452-7 [Full text]
Chotpitayasunondh T, Ungchusak K, Hanshaoworakul W, et al. Human disease from influenza A (H5N1), Thailand, 2004. Emerg Infect Dis 2005 Feb;11(2) [Full text]
Fouchier RAM, Schneeberger PM, Rozendaal FW, et al. Avian influenza A virus (H7N7) associated with human conjunctivitis and a fatal case of acute respiratory distress syndrome. Proc Natl Acad Sci 2004 (published online before print, Jan 26, 2004) [Abstract]
Health Canada. Avian influenza: British Columbia (update). Infectious Diseases News Briefs. Apr 8, 2004 [Full text]
Hien TT, Liem NT, Dung NT, et al. Avian influenza A (H5N1) in 10 patients in Vietnam. N Engl J Med 2004 Mar 18;350(12):1179-88 [Full text]
Keawcharoen J, Oraveerakul K, Kuiken T, et al. Avian influenza H5N1 in tigers and leopards. Emerg Infect Dis 2004 Dec;10(12) [Full text]
Kuiken T, Rimmelzwaan G, van Riel D, et al. Avian H5N1 influenza in cats. Science 2004 Oct 8;306(5694):241 [Abstract]
NIAID. Significant dates in influenza history. Focus on the Flu (NIAID Web site) [Web page]
NIAID. NIAID announces contracts to develop vaccine against H5N1 avian influenza; Press Release May 2004 http://www2.niaid.nih.gov/Newsroom/Releases/flucontracts.htm
Peiris M, Yuen KY, Leung CW, et al. Human infection with influenza H9N2. Lancet 1999;354:916-7 [Abstract]
PHS (Poultry Health Services). Fowl plague, avian influenza—highly pathogenic. PHS Avian Influenza Forum [Web page]
Snacken R, Kendal AP, Haaheim, et al. The next influenza pandemic: lessons from Hong Kong, 1997. Emerg Infect Dis 1999 Mar-Apr;5(2):195-203 [Full text]
Uyeki TM, Chong YH, Katz JM, et al. Lack of evidence for human-to-human transmission of avian influenza A (H9N2) viruses in Hong Kong, China, 1999. Emerg Infect Dis 2002 Feb;8(2):154-9 [Full text]
Voyles BA. Orthomyxoviruses. In: The biology of viruses. Ed 2. New York, NY: McGraw-Hill, 2002:147
Webster RG. Predictions for future human influenza pandemics. J Infect Dis 1997 Aug;176(Suppl 1):S14-19 [Full text]
WHO. Advice to international travelers. Feb 11, 2004 [Web page]
WHO. Avian influenza fact sheet [Web page]
WHO. Avian influenza [Home page]
WHO. Avian influenza: situation in Viet Nam—update. Jan 6, 2005 [Web page]
WHO. Avian influenza—situation in Thailand; status of pandemic vaccine development. Oct 4, 2004 [Web page]
WHO. Avian influenza—situation in Thailand; additional fatal case confirmed. Oct 25. 2004 [Web page]
WHO. Cumulative number of confirmed human cases of avian influenza A(H5N1) since 28 January 2004 [Web page]
WHO. Guidelines for the use of seasonal influenza vaccine in humans at risk of H5N1 infection. Jan 30, 2004 [Web page]
WHO. Influenza A (H5N1): WHO interim infection control guidelines for health care facilities. Mar 11, 2004 [Web page]
Yuen KY, Chan PKS, Peiris M, et al. Clinical features and rapid viral diagnosis of human disease associated with avian influenza A H5N1 virus. Lancet 1998;351(9101):467-71 [Abstract]