Flu season

Influenza (Flu)
Types
Vaccines
Treatment
Pandemics
Outbreaks
See also
For the Parks and Recreation episode, see Flu Season (Parks and Recreation).

Flu season is a annually-recurring time period characterized by the prevalence of outbreaks of influenza (flu). The season occurs during the cold half of the year in each hemisphere. Influenza activity can sometimes be predicted and even tracked geographically. While the beginning of major flu activity in each season varies by location, in any specific location these minor epidemics usually take about 3 weeks to peak and another 3 weeks to significantly diminish.[1]

Contents

Cause

Main article: Influenza

Three virus families, Influenzavirus A, B, and C are the main infective agents that cause influenza. During periods of cooler temperature, influenza cases increase roughly tenfold or more. Despite higher incidence of manifestations of the flu during the season, the viruses are actually transmitted throughout populations all year round.

Each annual flu season is normally associated with a major influenzavirus subtype. The associated subtype changes each year, due to development of immunological resistance to a previous year's strain (through exposure and vaccinations), and mutational changes in previously dormant viruses strains.

Duration and timing

In the United States, the flu season is considered October through May.[2]

Mechanism for seasonal nature of influenza

The exact mechanism behind the seasonal nature of influenza outbreaks is unclear. Some proposed explanations are:

Research in guinea pigs has shown that the aerosol transmission of the virus is enhanced when the air is cold and dry.[9] The dependence on aridity appears to be due to degradation of the virus particles in moist air, while the dependence on cold appears to be due to infected hosts shedding the virus for a longer period of time. The researchers did not find that the cold impaired the immune response of the guinea pigs to the virus.

Recent research done by National Institute of Child Health and Human Development (NICHD) found that the influenza virus has a "butter-like coating". The coating melts when it enters the respiratory tract. In the winter, the coating becomes a hardened shell; therefore, it can survive in the cold weather similar to a spore. In the summer, the coating melts before the virus reaches the respiratory tract.[10]

Flu vaccinations

Main article: Influenza vaccine

Flu vaccinations have been used to diminish the effects of the flu season. Since the Northern and Southern Hemisphere have winter at different times of the year, there are actually two flu seasons each year. Therefore, the World Health Organization (assisted by the National Influenza Centers) makes two vaccine formulations every year; one for the Northern, and one for the Southern Hemisphere.

According to the U.S. Department of Health, a growing number of large companies provide their employees with seasonal flu shots, either at a small cost to the employee or as a free service.

The annually updated trivalent influenza vaccine consists of hemagglutinin (HA) surface glycoprotein components from influenza H3N2, H1N1, and B influenza viruses.[11] The dominant strain in January 2006 was H3N2. Measured resistance to the standard antiviral drugs amantadine and rimantadine in H3N2 has increased from 1% in 1994 to 12% in 2003 to 91% in 2005.[12][13]

Health conditions likely to cause complications

Medical conditions that compromise the immune system increase the risks from flu.

Diabetes

Millions of people have diabetes. When blood sugars are not well controlled, diabetics can quickly develop a wide range of complications. Diabetes results in elevated blood sugars in the body, and this environment allows viruses and bacteria to thrive.

If blood sugars are poorly controlled, a mild flu can quickly turn severe, leading to hospitalization and even death. Uncontrolled blood sugars suppresses the immune systems and generally lead to more severe cases of the common cold or influenza. Thus it has been recommended that diabetics are vaccinated against flu, before the start of the flu season. [14][15]

Asthma

It is recommended that asthmatics be vaccinated against flu before the flu season. People with asthma can develop life-threatening complications from influenza and the common cold virus. Some of these complications include pneumonias and acute respiratory distress syndrome.[16]

Each year flu related complications in the USA affect close to 100,000 asthmatics, and millions more are seen in the emergency room because of severe shortness of breath. It is recommended that asthmatics are vaccinated between October and November, before the peak of the flu season. Flu vaccine works by boosting the body's immune system and takes about 2 weeks to become effective.[17]

Cancer

People with cancer usually have a suppressed immune system. Moreover, many cancer patients undergo radiation therapy and potent immunosuppressive medications, which further suppresses the body's ability to fight off infections. Everyone with cancer is highly susceptible and is at risk for complications from flu. It is recommended that all patients who have or have had cancer receive the H1N1 and common cold vaccine, and take medical advice if they contract a common cold or flu.

HIV/AIDS

Individuals who acquire the human immune deficiency virus (HIV) are very prone to a variety of infections. HIV has a tremendous capacity to destroy the body's immune system and this makes one prone to not only viral infections but also bacterial fungal and protozoa disorders. People with HIV are at an increased risk of serious flu-related complications. Many reports have shown that individuals with HIV can develop serious pneumonias which need hospitalization and aggressive antibiotic therapy. Moreover people with HIV have a longer flu season and are at a high risk of death. Vaccination with the flu shot has been shown to boost the immune system and protect against the seasonal flu in some patients with HIV; individuals who have HIV should only get vaccinated with the inactivated influenza vaccine. Any HIV patient who has been exposed to other people with influenza should see a physician to determine if there is a need for anti viral medications.[18]

Cost

The cost of a flu season in lives lost, medical expenses and economic impact can be severe.

"In the United States of America, for example, recent estimates put the cost of influenza epidemics to the economy at US$ 71-167 billion per year."[19]

A recent study[20] estimated that in the United States, annual influenza epidemics result in approximately 600,000 life-years lost, 3 million hospitalized days, and 30 million outpatient visits, resulting in medical costs of $10 billion annually. According to this study, lost earnings due to illness and loss of life amounted to over $15 billion annually and the total economic burden of annual influenza epidemics amounts to over $80 billion. Also, in the US the flu season usually accounts for 200,000 hospitalizations and 41,000 deaths. Because the mortality rate of the H1N1 "swine flu" is lower than common flu strains, this number was actually lower in 2009.

See also

External links

Sources and notes

  1. ^ National Institute of Allergy and Infectious Diseases (NIAID) Factsheet
  2. ^ CDC Questions and Answers 2010-01-27, Retrieved 2010-08-10.
  3. ^ Lowen, AC; Mubareka, S; Steel, J; Palese, P (October 2007). "Influenza virus transmission is dependent on relative humidity and temperature" (PDF). PLoS Pathogens 3 (10): e151. doi:10.1371/journal.ppat.0030151. PMC 2034399. PMID 17953482. http://www.plospathogens.org/article/fetchObjectAttachment.action?uri=info%3Adoi%2F10.1371%2Fjournal.ppat.0030151&representation=PDF. 
  4. ^ Shaman J, Kohn M (March 2009). "Absolute humidity modulates influenza survival, transmission, and seasonality". Proc. Natl. Acad. Sci. U.S.A. 106 (9): 3243–8. doi:10.1073/pnas.0806852106. PMC 2651255. PMID 19204283. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2651255. 
  5. ^ Shaman J, Pitzer VE, Viboud C, Grenfell BT, Lipsitch M (February 2010). Ferguson, Neil M.. ed. "Absolute humidity and the seasonal onset of influenza in the continental United States". PLoS Biol. 8 (2): e1000316. doi:10.1371/journal.pbio.1000316. PMC 2826374. PMID 20186267. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2826374. 
  6. ^ Cannell, JJ; Vieth R, Umhau J, Holick M, Grant W, Madronich S, Garland C, Giovannucci E (2006). "Epidemic influenza and vitamin D". Epidemiol Infect 134 (6): 1129–40. doi:10.1017/S0950268806007175. PMC 2870528. PMID 16959053. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2870528. 
  7. ^ Cannel, JJ; Zasloff M, Garland CF, Scragg R, Giovannucci E (2008). "On the epidemiology of influenza". Virol J 5 (29): 29. doi:10.1186/1743-422X-5-29. PMC 2279112. PMID 18298852. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2279112. 
  8. ^ Adit, G; Mansbach J, Camargo C (2009). "Association Between Serum 25-Hydroxyvitamin D Level and Upper Respiratory Tract Infection in the Third National Health and Nutrition Examination Survey". Arch Intern Med 169 (4): 384–90. doi:10.1001/archinternmed.2008.560. PMID 19237723. 
  9. ^ Lowen, AC; Mubareka, S; Steel, J; Palese, P (October 2007). "Influenza virus transmission is dependent on relative humidity and temperature" (PDF). PLoS Pathogens 3 (10): e151. doi:10.1371/journal.ppat.0030151. PMC 2034399. PMID 17953482. http://www.plospathogens.org/article/fetchObjectAttachment.action?uri=info%3Adoi%2F10.1371%2Fjournal.ppat.0030151&representation=PDF. 
  10. ^ Polozov, IV; Bezrukov L, Gawrisch K, Zimmerberg J (2008). "Progressive ordering with decreasing temperature of the phospholipids of influenza virus". Nat Chem Biol 4 (4): 248–55. doi:10.1038/nchembio.77. PMID 18311130. 
  11. ^ Daum LT, Shaw MW, Klimov AI, Canas LC, Macias EA, Niemeyer D, Chambers JP, Renthal R, Shrestha SK, Acharya RP, Huzdar SP, Rimal N, Myint KS, Gould P (August 2005). "Influenza A (H3N2) outbreak, Nepal". Emerging Infect. Dis. 11 (10): 1186–91. PMID 16102305. http://www.cdc.gov/ncidod/EID/vol11no08/05-0302.htm. 
  12. ^ Bird Flu: Threat or Menace? Why avian sniffles need not ruffle our feathers... too much Ronald Bailey October 19, 2005
  13. ^ Lawrence K. Altman (January 15, 2006). "This Season's Flu Virus Is Resistant to 2 Standard Drugs". The New York Times. http://www.nytimes.com/2006/01/15/health/15drugs.html. Retrieved 30 October 2006. 
  14. ^ flu.gov: Diabetes and the Flu
  15. ^ CDC brochure on flu vaccination for diabetics
  16. ^ Flu Season Overview North Carolina Immunization portal. Retrieved 2010-02-09
  17. ^ Centers for Disease Control and Prevention. "HIV/AIDS and the Flu" 2010-02-09.
  18. ^ Flu Season 2005-2006: Questions & Answers MedicineNet. Retrieved 2010-02-09
  19. ^ WHO Influenza Overview http://www.who.int/mediacentre/factsheets/2003/fs211/en/
  20. ^ Molinari, Ortega-Sanchez, Messonnier, Thompson, Wortley, Weintraub, Bridges The annual impact of seasonal influenza in the US: Measuring disease burden and costs doi:10.1016/j.vaccine.2007.03.046 PMID 17544181

Further reading

General topics
Influenza viruses
Influenza A virus
subtypes
H1N1 - H1N2 - H2N2 - H2N3 - H3N1 - H3N2 - H3N8 - H5N1 - H5N2 - H5N3 - H5N8 - H5N9 - H7N1 - H7N2 - H7N3 - H7N4 - H7N7 - H9N2 - H10N7
H1N1
       Pandemics
1918 flu pandemic (Spanish flu) - 2009 flu pandemic (Swine flu)
Science
H5N1
        Outbreaks
Science
Treatments
Antiviral drug
Flu vaccines
Influenza epidemics
and pandemics
       Pandemics
Epidemics
Russian flu (1977–1978) - Fujian flu (H3N2)
Non-human
Mammals
Non-mammals
Related

M: VIR

virs(prot)/clss

cutn/syst (hppv/hiva, infl/zost/zoon)/epon

drugJ(dnaa, rnaa, rtva, vacc)