“Did you get your flu shot?” If your friends are anything like mine, you heard this question at least a dozen times before Thanksgiving. You probably got your fair share of disdainful looks too, if you answered “No.” But why are we worried about getting the flu shot now and not in May? Why is there a flu season at all? After all, what does a virus living in a host who provides a dependable, cozy incubation chamber of 98°F, care whether it is freezing and snowy outside or warm and sunny? This question has bothered people for a long time, but only recently have we begun to understand the answer.
What is the Flu?
In order to discuss why we have a flu season, we must first understand what the flu is. The flu, also called influenza, is a viral respiratory illness. A virus is a microscopic infectious agent that invades the cells of your body and makes you sick. The flu is often confused with another virus, the common cold, because of the similarity in symptoms, which can include a cough, sore throat, and stuffy nose. However, flu symptoms also include fever, cold sweats, aches throughout the body, headache, exhaustion, and even some gastro-intestinal symptoms, such as vomiting and diarrhea (1).
The flu is highly contagious. Adults are able to spread the virus one day prior to the appearance of symptoms and up to seven days after symptoms begin. Influenza is typically spread via the coughs and sneezes of an infected person (1). Around 200,000 people in the United States are hospitalized each year because of the flu, and of these people, about 36,000 die. The flu is most serious for the elderly, the very young, or people who have a weakened immune system (1).
The Flu Season
The flu season in the U.S. can begin as early as October, but usually does not get into full swing until December. The season generally reaches its peak in February and ends in March (2). In the southern hemisphere, however, where winter comes during our summer months, the flu season falls between June and September. In other words, wherever there is winter, there is flu (3). In fact, even its name, “influenza” may be a reference to its original Italian name, influenza di freddo, meaning “influence of the cold” (4).
A common misconception is that the flu is caused by cold temperatures. However, the influenza virus is necessary to have the flu, so cold temperatures can only be a contributing factor. In fact, some people have argued that it is not cold temperatures that make the flu more common in the winter. Rather, they attest that the lack of sunlight or the different lifestyles people lead in winter months are the primary contributing factors. Here are the most popular theories about why the flu strikes in winter:
1) During the winter, people spend more time indoors with the windows sealed, so they are more likely to breathe the same air as someone who has the flu and thus contract the virus (3).
2) Days are shorter during the winter, and lack of sunlight leads to low levels of vitamin D and melatonin, both of which require sunlight for their generation. This compromises our immune systems, which in turn decreases ability to fight the virus (3).
3) The influenza virus may survive better in colder, drier climates, and therefore be able to infect more people (3).
The Flu Likes Cold, Dry Weather
For many years, it was impossible to test these hypotheses, since most lab animals do not catch the flu like humans do, and using humans as test subjects for this sort of thing is generally frowned upon. Around 2007, however, a researcher named Dr. Peter Palese found a peculiar comment in an old paper published after the 1918 flu pandemic: the author of the 1919 paper stated that upon the arrival of the flu virus to Camp Cody in New Mexico, the guinea pigs in the lab began to get sick and die (4). Palese tried infecting a few guinea pigs with influenza, and sure enough, the guinea pigs got sick. Importantly, not only did the guinea pigs exhibit flu symptoms when they were inoculated by Palese, but the virus was transmitted from one guinea pig to another (4).
Now that Palese had a model organism, he was able to begin experiments to get to the bottom of the flu season. He decided to first test whether or not the flu is transmitted better in a cold, dry climate than a warm, humid one. To test this, Palese infected batches of guinea pigs and placed them in cages adjacent to uninfected guinea pigs to allow the virus to spread from one cage to the other. The pairs of guinea pig cages were kept at varying temperatures (41°F, 68°F, and 86°F) and humidity (20%-80%). Palese found that the virus was transmitted better at low temperatures and low humidity than at high temperatures and high humidity (see Figure 1).
Figure 1 ~ Experimental Setup. Guinea pigs were housed in adjacent cages. Guinea pigs in cage 1 were infected by Palese with influenza. Palese observed how many guinea pigs in cage 2 became infected from the guinea pigs in cage 1 at different temperatures and levels of humidity. B, C) Transmission rates were 100% at low humidity, regardless of temperature. At high humidity, transmission occurred only at the lower temperature.
However, Palese’s initial experiment did not explain why the virus was transmitted best at cooler temperatures and low humidity. Palese tested the immune systems of the animals to find out if the immune system functions poorly at low temperatures and low humidity, but he found no difference in innate immunity among the guinea pigs (5). A paper from the 1960s may provide an alternate explanation. The study tested the survival time of different viruses (i.e. the amount of time the virus remains viable and capable of causing disease) at contrasting temperatures and levels of humidity. The results from the study suggest that influenza actually survives longer at low humidity and low temperatures. At 43°F with very low humidity, most of the virus was able to survive more than 23 hours, whereas at high humidity and a temperature of 90°F, survival was diminished at even one hour into incubation (3).
The data from these studies are supported by a third study that reports higher numbers of flu infections the month after a very dry period (6). In case you’re wondering, this is only the case in places that experience winter. In warmer climates, oddly enough, flu infection rates are correlated most closely with high humidity and lots of rain (6). Unfortunately, not much research has been done to explain these contradictory results, so it’s unclear why the flu behaves so differently in disparate environments. This emphasizes the need for continued influenza research. Therefore, we can conclude that, at least in regions that have a winter season, the influenza virus survives longer in cold, dry air, so it has a greater chance of infecting another person.
Although other factors probably contribute as well, the main reason we have a flu season may simply be that the influenza virus is happier in cold, dry weather and thus better able to invade our bodies. So, as the temperature and humidity keep dropping, your best bet for warding off this nasty bug is to get your flu shot ASAP, stay warm, and invest in a humidifier.
Hannah Foster is a PhD candidate in the Molecules, Cells, and Organisms program at Harvard University.
For more information about the flu, check out this video:
References
1) Medical News Today. What is flu? What is influenza? What are the symptoms of flu? < >[2 November, 2014]
2) Centers for Disease Control. The Flu Season. <http://www.cdc.gov/flu/about/season/flu-season.htm> [2 November, 2014]
3) Elert, E. 2013. FYI: Why is There a Winter Flu Season? Popular Science. <http://www.popsci.com/science/article/2013-01/fyi-why-winter-flu-season> [2 November, 2014]
4) Kolata, G. 2007. Study Shows Why the Flu Likes Winter. New York Times. <http://www.nytimes.com/2007/12/05/health/research/05flu.html?_r=1&> [2 November, 2014]
5) Lowen, A.C., S. Mubareka, J. Steel, and P. Palese. 2007. Influenza Virus Transmission Is Dependent on Relative Humidity and Temperature. PLOS Pathogens. 3(10):e151.
6) Roos, R. 2013. Study: Flu likes weather cold and dry or humid and rainy. University of Minnesota Center for Infectious Disease Research and Policy. <http://www.cidrap.umn.edu/news-perspective/2013/03/study-flu-likes-weather-cold-and-dry-or-humid-and-rainy> [14 November, 2014]
It disappoints me that such a well written article would encourage getting mercury injections would help with the flu.
Go to highwire.com with Del Bigtree and get true stars in how poorly the flu shot works. Do your home work on how good stomach bio is one of leading ways to strengthen your gut bio. Mercury kills it.
I use to be pro vaxx till I finally did my own research off of government sites.
The doctors the scientist the researchers and the parents I speak against vaccinations are not wrong. And if you look at the integrity of these people as opposed to the government they will win every time.
I think humidity really has a role here in the spread of the virus. Here in the Philippines, we have a warm climate. right now the temp is 31C and RH is 53%. Actually the RH is not the right unit to measure because it varies with temperature. The Absolute humidity (or the actual water vapor in the air per cubic meter) should be the determinant. Based on my research and calculation, at these givens above, the Absolute humidity is 17g/ cubic meter. Based on the graph above, i have computed that at 41degF or 5degC, at 35% relative humidity, the absolute humidity is 2 grams/cubic meters which gives 100% transmission rate. While at 80% RH at the same temp, gives absolute humidity of 5 grams/cubic meters, giving 50% transmission rate. Now the temperature was increased to 68F or 20C. At 35% RH, the absolute humidity is 6grams/cubic meter, giving still a 100% transmission rate. Now at 80% RH for the same temp, the absolute humidity is 14 grams/cubic meter, giving 0% transmission rate. Now lets assume that we are targetting an ideal 14 grams/cubic meter and above ABSOLUTE HUMIDITY in any temperature or condition at whatever country just to be able to ward off this Corona Virus; then lets set our home temperature to 24 degrees Centigrade or 75.2C, therefore, we have to get an RH that 65%. So i suggest all homes should have an accurate Humidity and thermometer. If you’re RH shows less than 65%, then turn on the Humidifier, or Boil Water, or Turn on your shower until your RH goes 65% and above. I suggest the maximum should just be at 80% so as not to encourage molds at this given temperature (24degC). That’s it! I think we help solve it. Nothing to lose! Just try it! Im doing it now and share it to others 🙂
I was under the impression that the onset of the flu seasons is correlated with the seasonal bird migration patterns, triggering changes in the virus ecology in China and South East Asia, where advance flu monitoring is happening each year.
Yes, but you’ll hardly find a ‘scientist’ who is willing to stick their neck out about where they seem to come from. This article appears to just treat the domestic scene, rather than the global one.
But don’t take humans out of the picture entirely. We are now contributing by means of cheap global travel.
Me and a friend are doing research on respiratory illnesses.
CDC is scam and 99% People believe i them they are more stupid
What if the guinea pigs behaved differently in cold temperatures, and this is what facilitated the spread? Call it the snuggle hypothesis.
I suspect our nasal passages dry out and crack in the winter making us susceptible to flu infection. I’m prone to minor nose bleeds during very dry air. We have to put pots of water on the wood stoves to humidify the air.
My bro-in-law would not get a flu shot because he believed that the government used them to inject tracking devices into the population. Imagine that distrust of the government. He believed that until the day he died from cancer caused by agent orange exposure in Vietnam.
How does the flu survive so long in your body if your body temp is around 100 degrees? Is it able to reproduce quickly?
All ideas would be taken in consideration ,take my advice , when you go out to the open ,close your mouth and breath from your nose .
Wear a viral mask I have one flu with start in thr nose pal