Spanish flu | |
---|---|
Disease | Influenza |
Virus strain | Strains of A/H1N1 |
Location | Worldwide |
First outbreak | Unknown (First observed in the U.S.) |
Date | February 1918 – April 1920 |
Suspected cases‡ | 500 million (estimated) |
Deaths | 17–100 million (estimated) |
‡Suspected
cases have not been confirmed by laboratory tests as being due to this
strain, although some other strains may have been ruled out. |
Influenza (flu) |
---|
Spanish flu, also known historically as the great influenza epidemic, or more recently as the 1918 influenza pandemic, was an exceptionally deadly global influenza pandemic caused by the H1N1 influenza A virus. The earliest records of illness and mortality associated with the pandemic were documented in Kansas, United States in March 1918 and then in April 1918 in France, Germany and the United Kingdom. When it ended two years later, an estimated 500 million people – then about a third of the world's population – had been infected in four successive waves. Death toll estimates typically range between 20 million and 50 million, or more broadly from a conservative 17 million to a possible high of 100 million, more fatalities than in the previous four years of World War I, making it one of the deadliest pandemics in human history.
Spanish flu is a misnomer rooted in historical othering of infectious disease origin, which is now avoided. The epidemic broke out near the end of World War I, when wartime censors suppressed bad news in the belligerent countries to maintain morale, but newspapers were free to report the epidemic's effects in neutral Spain. These stories created a false impression of Spain as especially hard hit, leading press outside Spain to adopt the name "Spanish" flu. Insufficient historical and epidemiological data make the pandemic's geographic origin indeterminate, with competing hypotheses on the initial spread.
Most influenza outbreaks disproportionately kill the very young and the very old, with a higher survival rate for those in between, but the Spanish flu pandemic resulted in a higher-than-expected mortality rate for young adults. Scientists offer several possible explanations for the high mortality rate of the 1918 influenza pandemic, including a severe six-year climate anomaly that affected the migration of disease vectors and increased the likelihood of the spread of the disease through bodies of water. Some analyses have shown the virus to be particularly deadly because it triggers a cytokine storm, which ravages the stronger immune system of young adults. In contrast, a 2007 analysis of medical journals from the period of the pandemic found that the viral infection was no more aggressive than previous influenza strains. Instead, malnourishment, overcrowded medical camps and hospitals, and poor hygiene, all exacerbated by the recent war, promoted bacterial superinfection. This superinfection killed most of the victims, typically after a somewhat prolonged death bed.
The 1918 Spanish flu was the first of three flu pandemics caused by H1N1 influenza A virus; the most recent one was the 2009 swine flu pandemic. The 1977 Russian flu was also caused by H1N1 virus, but it mostly affected younger populations. The ongoing pandemic of COVID-19, which began in December 2019 and is caused by Severe acute respiratory syndrome coronavirus 2, is the deadliest pandemic since Spanish flu due to its spread worldwide and high death toll.
Etymologies
The 1918 pandemic was known by many different names, depending on place, time, and context. The etymology of alternative names reflects the history of the event, and its effects on people who would only learn that viruses caused influenza years later.
Descriptive names
Outbreaks of influenza-like illness were documented in 1916–17 at British military hospitals in Étaples, France, and just across the English Channel at Aldershot, England. Clinical indications in common with the 1918 pandemic included rapid symptom progression in previously healthy young men to a "dusky" heliotrope cyanosis of the face before death. The German name 'Blitzkatarrh' (lightning cold), reflected the sudden onset, while blue-violet cyanosis ended in the 'purple death'.
The Aldershot physicians wrote in The Lancet, "the influenza pneumococcal purulent bronchitis we and others described in 1916 and 1917 is fundamentally the same condition as the influenza of this present pandemic." While 'purulent bronchitis' has not been definitively linked to the same A/H1N1 virus, it may be a precursor.
In 1918, 'epidemic influenza' (Italian: influenza, influence), also known at the time as 'the grip' (French: la grippe, grasp), appeared in Kansas in the U.S. during late spring, and early reports from Spain began appearing on May 21. Reports from both places called it 'three-day fever' (fiebre de los tres días).
Associative names
'Spanish influenza'
Outside Spain, the disease was soon misnamed 'Spanish influenza.' In a June 2, 1918 The Times of London dispatch titled, "The Spanish Epidemic," a correspondent in Madrid reported over 100,000 victims of, "The unknown disease…clearly of a gripal character," without referring to "Spanish influenza" directly. Three weeks later The Times reported that, "Everybody thinks of it as the 'Spanish' influenza to-day." When it arrived in Moscow Pravda announced, "Ispánka (The Spanish Lady) is in town," making 'the Spanish lady' another common name.
The outbreak did not originate in Spain (see below), but reporting did, due to wartime censorship in belligerent nations. Spain was a neutral country unconcerned with morale or combat readiness, so its newspapers freely reported epidemic effects, including King Alfonso XIII's grave illness, making Spain the apparent locus of the epidemic. The censorship was so effective that Spain's health officials were unaware its neighboring countries were similarly affected.
In an October 1918 "Madrid Letter" to the Journal of the American Medical Association, a Spanish official protested, "we were surprised to learn that the disease was making ravages in other countries, and that people there were calling it the 'Spanish grip'. And wherefore Spanish? …this epidemic was not born in Spain, and this should be recorded as a historic vindication." There was no vindication. Between the time this letter was written and published, The Serbian Newspaper (Corfu) editorialized, "Various countries have been assigning the origin of this imposing guest to each other for quite some time, and at one point in time they agreed to assign its origin to the kind and neutral Spain…"
Other exonyms
Many alternative names used at the time of the pandemic are also exonyms, reflecting the historical pattern of associating new infectious diseases with something foreign, which is a form of xenophobia. This tendency was observed even before 1889–1890 pandemic, also known as the 'Russian flu', where the Russians already called epidemic influenza the 'Chinese catarrh', the Germans called it the 'Russian pest', while the Italians in turn called it the 'German disease'. These epithets were were re-used in the 1918 pandemic, along with new ones.
French press initially called it the 'American flu', but adopted 'Spanish flu' to avoid antagonizing an ally. Early names used by both British and German soldiers in the spring of 1918 were 'Flanders fever' (Flandern-Fieber) or 'Flanders flu' (Flandrische Grippe), after a famous battlefield in Belgium where many soldiers on both sides fell ill. In Senegal it was named 'Brazilian flu', and in Brazil, 'German flu'. In Malaysia it was called 'Singapore flu'. In Spain it was also known as the 'French flu' (gripe francesa), or the 'Naples Soldier' (Soldado de Nápoles), after a popular song from an operetta paying in Madrid. Spanish flu (Gripe Española) is now a common name for the pandemic in Spain, but that remains controversial there.
The othering was not limited to geopolitical borders, it crossed social boundaries as well. In Poland it was known as the 'Bolshevik disease', while the Bolsheviks referred to it as the 'Kirghiz disease'. In South Africa it was known as either the 'white man's sickness' by black South Africans, or "blacks' disease" (kaffersiekte) by white South Africans. In Japan sumo wrestlers were blamed for bringing the disease home from a match in Taiwan by calling it 'sumo flu' (Sumo Kaze), even though three top wrestlers died before they could return.
Generic names
French military doctors originally called it 'disease 11' (maladie onze). When it arrived in Tehran in Qajar Iran high winds were blamed for the rapid spread, so it was called the 'disease of the wind' (nakhushi-yi bad). A children's song from the 1889–90 flu pandemic, also based on this mistaken idea that wind was a disease vector, was shortened and adapted into a popular skipping-rope rhyme in 1918. It's a metaphor for the contagiousness of 'Influenza', where that name was fore-clipped to the apheresis 'Enza':
I had a little bird,
its name was Enza.
I opened the window,
and in-flu-enza.
This outbreak was also commonly known at the time as the 'great influenza epidemic', after the 'great war', a common name for World War I before World War II. World Health Organization best practices first published in 2015 now avoid attaching culturally significant names to new diseases to prevent social stigma, and they specifically list 'Spanish flu' as an example to be avoided. Many authors now avoid calling this the Spanish flu, instead preferring the '1918 flu/influenza pandemic'.
History
Timeline
First wave of early 1918
The pandemic is conventionally marked as having begun on 4 March 1918 with the recording of the case of Albert Gitchell, an army cook at Camp Funston in Kansas, United States, despite there having been cases before him. The disease had already been observed in Haskell County as early as January 1918, prompting local doctor Loring Miner to warn the editors of the US Public Health Service's academic journal Public Health Reports. Within days of the March 4 first case at Camp Funston, 522 men at the camp had reported sick. By 11 March 1918, the virus had reached Queens, New York. Failure to take preventive measures in March/April was later criticized.
As the US had entered World War I, the disease quickly spread from Camp Funston, a major training ground for troops of the American Expeditionary Forces, to other US Army camps and Europe, becoming an epidemic in the Midwest, East Coast, and French ports by April 1918, and reaching the Western Front by the middle of the month. It then quickly spread to the rest of France, Great Britain, Italy, and Spain and in May reached Breslau and Odessa. After the signing of the Treaty of Brest-Litovsk (March 1918), Germany started releasing Russian prisoners of war, who then brought the disease to their country. It reached North Africa, India, and Japan in May, and soon after had likely gone around the world as there had been recorded cases in Southeast Asia in April. In June an outbreak was reported in China. After reaching Australia in July, the wave started to recede.
The first wave of the flu lasted from the first quarter of 1918 and was relatively mild. Mortality rates were not appreciably above normal; in the United States ~75,000 flu-related deaths were reported in the first six months of 1918, compared to ~63,000 deaths during the same time period in 1915. In Madrid, Spain, fewer than 1,000 people died from influenza between May and June 1918. There were no reported quarantines during the first quarter of 1918. However, the first wave caused a significant disruption in the military operations of World War I, with three-quarters of French troops, half the British forces, and over 900,000 German soldiers sick.
Deadly second wave of late 1918
The second wave began in the second half of August 1918, probably spreading to Boston and Freetown, Sierra Leone, by ships from Brest, where it had likely arrived with American troops or French recruits for naval training. From the Boston Navy Yard and Camp Devens (later renamed Fort Devens), about 30 miles west of Boston, other U.S. military sites were soon afflicted, as were troops being transported to Europe. Helped by troop movements, it spread over the next two months to all of North America, and then to Central and South America, also reaching Brazil and the Caribbean on ships. In July 1918, the Ottoman Empire saw its first cases in some soldiers. From Freetown, the pandemic continued to spread through West Africa along the coast, rivers, and the colonial railways, and from railheads to more remote communities, while South Africa received it in September on ships bringing back members of the South African Native Labour Corps returning from France. From there it spread around southern Africa and beyond the Zambezi, reaching Ethiopia in November. On September 15, New York City saw its first fatality from influenza. The Philadelphia Liberty Loans Parade, held in Philadelphia, Pennsylvania, on 28 September 1918 to promote government bonds for World War I, resulted in 12,000 deaths after a major outbreak of the illness spread among people who had attended the parade.
From Europe, the second wave swept through Russia in a southwest–northeast diagonal front, as well as being brought to Arkhangelsk by the North Russia intervention, and then spread throughout Asia following the Russian Civil War and the Trans-Siberian railway, reaching Iran (where it spread through the holy city of Mashhad), and then later India in September, as well as China and Japan in October. The celebrations of the Armistice of 11 November 1918 also caused outbreaks in Lima and Nairobi, but by December the wave was mostly over.
The second wave of the 1918 pandemic was much more deadly than the first. The first wave had resembled typical flu epidemics; those most at risk were the sick and elderly, while younger, healthier people recovered easily. October 1918 was the month with the highest fatality rate of the whole pandemic. In the United States, ~292,000 deaths were reported between September–December 1918, compared to ~26,000 during the same time period in 1915. The Netherlands reported 40,000+ deaths from influenza and acute respiratory disease. Bombay reported ~15,000 deaths in a population of 1.1 million. The 1918 flu pandemic in India was especially deadly, with an estimated 12.5–20 million deaths in the last quarter of 1918 alone.
Third wave of 1919
In January 1919, a third wave of the Spanish Flu hit Australia, where it killed around 12,000 people following the lifting of a maritime quarantine, and then spread quickly through Europe and the United States, where it lingered through the spring and until June 1919. It primarily affected Spain, Serbia, Mexico and Great Britain, resulting in hundreds of thousands of deaths. It was less severe than the second wave but still much more deadly than the initial first wave. In the United States, isolated outbreaks occurred in some cities including Los Angeles, New York City, Memphis, Nashville, San Francisco and St. Louis. Overall American mortality rates were in the tens of thousands during the first six months of 1919.
Fourth wave of 1920
In spring 1920, a fourth wave occurred in isolated areas including New York City, Switzerland, Scandinavia, and some South American islands. New York City alone reported 6,374 deaths between December 1919 and April 1920, almost twice the number of the first wave in spring 1918. Other US cities including Detroit, Milwaukee, Kansas City, Minneapolis and St. Louis were hit particularly hard, with death rates higher than all of 1918. Peru experienced a late wave in early 1920, and Japan had one from late 1919 to 1920, with the last cases in March. In Europe, five countries (Spain, Denmark, Finland, Germany and Switzerland) recorded a late peak between January–April 1920.
Potential origins
Despite its name, historical and epidemiological data cannot identify the geographic origin of the Spanish flu. However, several theories have been proposed.
United States
The first confirmed cases originated in the United States. Historian Alfred W. Crosby stated in 2003 that the flu originated in Kansas, and author John M. Barry described a January 1918 outbreak in Haskell County, Kansas, as the point of origin in his 2004 article.
A 2018 study of tissue slides and medical reports led by evolutionary biology professor Michael Worobey found evidence against the disease originating from Kansas, as those cases were milder and had fewer deaths compared to the infections in New York City in the same period. The study did find evidence through phylogenetic analyses that the virus likely had a North American origin, though it was not conclusive. In addition, the haemagglutinin glycoproteins of the virus suggest that it originated long before 1918, and other studies suggest that the reassortment of the H1N1 virus likely occurred in or around 1915.
Europe
The major UK troop staging and hospital camp in Étaples in France has been theorized by virologist John Oxford as being at the center of the Spanish flu. His study found that in late 1916 the Étaples camp was hit by the onset of a new disease with high mortality that caused symptoms similar to the flu. According to Oxford, a similar outbreak occurred in March 1917 at army barracks in Aldershot, and military pathologists later recognized these early outbreaks as the same disease as the Spanish flu. The overcrowded camp and hospital at Etaples was an ideal environment for the spread of a respiratory virus. The hospital treated thousands of victims of poison gas attacks, and other casualties of war, and 100,000 soldiers passed through the camp every day. It also was home to a piggery, and poultry was regularly brought in from surrounding villages to feed the camp. Oxford and his team postulated that a precursor virus, harbored in birds, mutated and then migrated to pigs kept near the front.
A report published in 2016 in the Journal of the Chinese Medical Association found evidence that the 1918 virus had been circulating in the European armies for months and possibly years before the 1918 pandemic. Political scientist Andrew Price-Smith published data from the Austrian archives suggesting the influenza began in Austria in early 1917.
A 2009 study in Influenza and Other Respiratory Viruses found that Spanish flu mortality simultaneously peaked within the two-month period of October and November 1918 in all fourteen European countries analyzed, which is inconsistent with the pattern that researchers would expect if the virus had originated somewhere in Europe and then spread outwards.
China
In 1993, Claude Hannoun, the leading expert on the Spanish flu at the Pasteur Institute, asserted the precursor virus was likely to have come from China and then mutated in the United States near Boston and from there spread to Brest, France, Europe's battlefields, the rest of Europe, and the rest of the world, with Allied soldiers and sailors as the main disseminators. Hannoun considered several alternative hypotheses of origin, such as Spain, Kansas, and Brest, as being possible, but not likely. In 2014, historian Mark Humphries argued that the mobilization of 96,000 Chinese laborers to work behind the British and French lines might have been the source of the pandemic. Humphries, of the Memorial University of Newfoundland in St. John's, based his conclusions on newly unearthed records. He found archival evidence that a respiratory illness that struck northern China (where the laborers came from) in November 1917 was identified a year later by Chinese health officials as identical to the Spanish flu. However, no tissue samples have survived for modern comparison. Nevertheless, there were some reports of respiratory illness on parts of the path the laborers took to get to Europe, which also passed through North America.
One of the few regions of the world seemingly less affected by the Spanish flu pandemic was China, where several studies have documented a comparatively mild flu season in 1918. (Although this is disputed due to lack of data during the Warlord Period, see Around the globe.) This has led to speculation that the Spanish flu pandemic originated in China, as the lower rates of flu mortality may be explained by the Chinese population's previously acquired immunity to the flu virus.
A report published in 2016 in the Journal of the Chinese Medical Association found no evidence that the 1918 virus was imported to Europe via Chinese and Southeast Asian soldiers and workers and instead found evidence of its circulation in Europe before the pandemic. The 2016 study suggested that the low flu mortality rate (an estimated one in a thousand) found among the Chinese and Southeast Asian workers in Europe meant that the deadly 1918 influenza pandemic could not have originated from those workers. Further evidence against the disease being spread by Chinese workers was that workers entered Europe through other routes that did not result in a detectable spread, making them unlikely to have been the original hosts.
Epidemiology and pathology
Transmission and mutation
The basic reproduction number of the virus was between 2 and 3. The close quarters and massive troop movements of World War I hastened the pandemic, and probably both increased transmission and augmented mutation. The war may also have reduced people's resistance to the virus. Some speculate the soldiers' immune systems were weakened by malnourishment, as well as the stresses of combat and chemical attacks, increasing their susceptibility. A large factor in the worldwide occurrence of the flu was increased travel. Modern transportation systems made it easier for soldiers, sailors, and civilian travelers to spread the disease. Another was lies and denial by governments, leaving the population ill-prepared to handle the outbreaks.
The severity of the second wave has been attributed to the circumstances of the First World War. In civilian life, natural selection favors a mild strain. Those who get very ill stay home, and those mildly ill continue with their lives, preferentially spreading the mild strain. In the trenches, natural selection was reversed. Soldiers with a mild strain stayed where they were, while the severely ill were sent on crowded trains to crowded field hospitals, spreading the deadlier virus. The second wave began, and the flu quickly spread around the world again. Consequently, during modern pandemics, health officials look for deadlier strains of a virus when it reaches places with social upheaval. The fact that most of those who recovered from first-wave infections had become immune showed that it must have been the same strain of flu. This was most dramatically illustrated in Copenhagen, which escaped with a combined mortality rate of just 0.29% (0.02% in the first wave and 0.27% in the second wave) because of exposure to the less-lethal first wave. For the rest of the population, the second wave was far more deadly; the most vulnerable people were those like the soldiers in the trenches – adults who were young and fit.
After the lethal second wave struck in late 1918, new cases dropped abruptly. In Philadelphia, for example, 4,597 people died in the week ending 16 October, but by 11 November, influenza had almost disappeared from the city. One explanation for the rapid decline in the lethality of the disease is that doctors became more effective in the prevention and treatment of pneumonia that developed after the victims had contracted the virus. However, John Barry stated in his 2004 book The Great Influenza: The Epic Story of the Deadliest Plague In History that researchers have found no evidence to support this position. Another theory holds that the 1918 virus mutated extremely rapidly to a less lethal strain. Such evolution of influenza is a common occurrence: there is a tendency for pathogenic viruses to become less lethal with time, as the hosts of more dangerous strains tend to die out. Some fatal cases did continue into March 1919, killing one player in the 1919 Stanley Cup Finals.
Signs and symptoms
The majority of the infected experienced only the typical flu symptoms of sore throat, headache, and fever, especially during the first wave. However, during the second wave, the disease was much more serious, often complicated by bacterial pneumonia, which was often the cause of death. This more serious type would cause heliotrope cyanosis to develop, whereby the skin would first develop two mahogany spots over the cheekbones which would then over a few hours spread to color the entire face blue, followed by black coloration first in the extremities and then further spreading to the limbs and the torso. After this, death would follow within hours or days due to the lungs being filled with fluids. Other signs and symptoms reported included spontaneous mouth and nosebleeds, miscarriages for pregnant women, a peculiar smell, teeth, and hair falling, delirium, dizziness, insomnia, loss of hearing or smell, blurred vision, and impaired color vision. One observer wrote, "One of the most striking of the complications was hemorrhage from mucous membranes, especially from the nose, stomach, and intestine. Bleeding from the ears and petechial hemorrhages in the skin also occurred". The severity of the symptoms was believed to be caused by cytokine storms.
The majority of deaths were from bacterial pneumonia, a common secondary infection associated with influenza. This pneumonia was itself caused by common upper respiratory-tract bacteria, which were able to get into the lungs via the damaged bronchial tubes of the victims. The virus also killed people directly by causing massive hemorrhages and edema in the lungs. Modern analysis has shown the virus to be particularly deadly because it triggers a cytokine storm (overreaction of the body's immune system). One group of researchers recovered the virus from the bodies of frozen victims and transfected animals with it. The animals suffered rapidly progressive respiratory failure and death through a cytokine storm. The strong immune reactions of young adults were postulated to have ravaged the body, whereas the weaker immune reactions of children and middle-aged adults resulted in fewer deaths among those groups.
Misdiagnosis
Because the virus that caused the disease was too small to be seen under a microscope at the time, there were problems with correctly diagnosing it. The bacterium Haemophilus influenzae was instead mistakenly thought to be the cause, as it was big enough to be seen and was present in many, though not all, patients. For this reason, a vaccine that was used against that bacillus did not make an infection rarer but did decrease the death rate.
During the deadly second wave there were also fears that it was in fact plague, dengue fever, or cholera. Another common misdiagnosis was typhus, which was common in circumstances of social upheaval, and was therefore also affecting Russia in the aftermath of the October Revolution. In Chile, the view of the country's elite was that the nation was in severe decline, and therefore doctors assumed that the disease was typhus caused by poor hygiene, and not an infectious one, causing a mismanaged response which did not ban mass gatherings.
The role of climate conditions
Studies have shown that the immune system of Spanish flu victims was weakened by adverse climate conditions which were particularly unseasonably cold and wet for extended periods of time during the duration of the pandemic. This affected especially WWI troops exposed to incessant rains and lower-than-average temperatures for the duration of the conflict, and especially during the second wave of the pandemic. Ultra-high-resolution climate data combined with highly detailed mortality records analyzed at Harvard University and the Climate Change Institute at the University of Maine identified a severe climate anomaly that impacted Europe from 1914 to 1919, with several environmental indicators directly influencing the severity and spread of the Spanish flu pandemic. Specifically, a significant increase in precipitation affected all of Europe during the second wave of the pandemic, from September to December 1918. Mortality figures follow closely the concurrent increase in precipitation and decrease in temperatures. Several explanations have been proposed for this, including the fact that lower temperatures and increased precipitation provided ideal conditions for virus replication and transmission, while also negatively affecting the immune systems of soldiers and other people exposed to the inclement weather, a factor proven to increase likelihood of infection by both viruses and pneumococcal co-morbid infections documented to have affected a large percentage of pandemic victims (one fifth of them, with a 36% mortality rate). A six-year climate anomaly (1914–1919) brought cold, marine air to Europe, drastically changing its weather, as documented by eyewitness accounts and instrumental records, reaching as far as the Gallipoli campaign, in Turkey, where ANZAC troops suffered extremely cold temperatures despite the normally Mediterranean climate of the region. The climate anomaly likely influenced the migration of H1N1 avian vectors which contaminate bodies of water with their droppings, reaching 60% infection rates in autumn. The climate anomaly has been associated with an anthropogenic increase in atmospheric dust, due to the incessant bombardment; increased nucleation due to dust particles (cloud condensation nuclei) contributed to increased precipitation.
Responses
Public health management
While systems for alerting public health authorities of infectious spread did exist in 1918, they did not generally include influenza, leading to a delayed response. Nevertheless, actions were taken. Maritime quarantines were declared on islands such as Iceland, Australia, and American Samoa, saving many lives. Social distancing measures were introduced, for example closing schools, theatres, and places of worship, limiting public transportation, and banning mass gatherings. Wearing face masks became common in some places, such as Japan, though there were debates over their efficacy. There was also some resistance to their use, as exemplified by the Anti-Mask League of San Francisco. Vaccines were also developed, but as these were based on bacteria and not the actual virus, they could only help with secondary infections. The actual enforcement of various restrictions varied. To a large extent, the New York City health commissioner ordered businesses to open and close on staggered shifts to avoid overcrowding on the subways.
A later study found that measures such as banning mass gatherings and requiring the wearing of face masks could cut the death rate up to 50 percent, but this was dependent on their being imposed early in the outbreak and not being lifted prematurely.
Medical treatment
As there were no antiviral drugs to treat the virus, and no antibiotics to treat the secondary bacterial infections, doctors would rely on a random assortment of medicines with varying degrees of effectiveness, such as aspirin, quinine, arsenics, digitalis, strychnine, epsom salts, castor oil, and iodine. Treatments of traditional medicine, such as bloodletting, ayurveda, and kampo were also applied.
Information dissemination
Due to World War I, many countries engaged in wartime censorship, and suppressed reporting of the pandemic. For example, the Italian newspaper Corriere della Sera was prohibited from reporting daily death tolls. The newspapers of the time were also generally paternalistic and worried about mass panic. Misinformation also spread along with the disease. In Ireland there was a belief that noxious gases were rising from the mass graves of Flanders Fields and being "blown all over the world by winds". There were also rumors that the Germans were behind it, for example by poisoning the aspirin manufactured by Bayer, or by releasing poison gas from U-boats.
Mortality
Around the globe
The Spanish flu infected around 500 million people, about one-third of the world's population. Estimates as to how many infected people died vary greatly, but the flu is regardless considered to be one of the deadliest pandemics in history. An early estimate from 1927 put global mortality at 21.6 million. An estimate from 1991 states that the virus killed between 25 and 39 million people. A 2005 estimate put the death toll at 50 million (about 3% of the global population), and possibly as high as 100 million (more than 5%). However, a 2018 reassessment in the American Journal of Epidemiology estimated the total to be about 17 million, though this has been contested. With a world population of 1.8 to 1.9 billion, these estimates correspond to between 1 and 6 percent of the population.
A 2009 study in Influenza and Other Respiratory Viruses based on data from fourteen European countries estimated a total of 2.64 million excess deaths in Europe attributable to the Spanish flu during the major 1918–1919 phase of the pandemic, in line with the three prior studies from 1991, 2002, and 2006 that calculated a European death toll of between 2 million and 2.3 million. This represents a mortality rate of about 1.1% of the European population (c. 250 million in 1918), considerably higher than the mortality rate in the US, which the authors hypothesize is likely due to the severe effects of the war in Europe. The excess mortality rate in the UK has been estimated at 0.28%–0.4%, far below this European average.
Some 12–17 million people died in India, about 5% of the population. The death toll in India's British-ruled districts was 13.88 million. Another estimate gives at least 12 million dead. The decade between 1911 and 1921 was the only census period in which India's population fell, mostly due to devastation of the Spanish flu pandemic. While India is generally described as the country most severely affected by the Spanish flu, at least one study argues that other factors may partially account for the very high excess mortality rates observed in 1918, citing unusually high 1917 mortality and wide regional variation (ranging from 0.47% to 6.66%). A 2006 study in The Lancet also noted that Indian provinces had excess mortality rates ranging from 2.1% to 7.8%, stating: "Commentators at the time attributed this huge variation to differences in nutritional status and diurnal fluctuations in temperature."
In Finland, 20,000 died out of 210,000 infected. In Sweden, 34,000 died.
In Japan, 23 million people were affected, with at least 390,000 reported deaths. In the Dutch East Indies (now Indonesia), 1.5 million were assumed to have died among 30 million inhabitants. In Tahiti, 13% of the population died during one month. Similarly, in Western Samoa 22% of the population of 38,000 died within two months.
In Istanbul, capital of the Ottoman Empire, 6,403 to 10,000 died, giving the city a mortality rate of at least 0.56%.
In New Zealand, the flu killed an estimated 6,400 Pakeha (or "New Zealanders primarily of European descent") and 2,500 indigenous Maori in six weeks, with Māori dying at eight times the rate of Pakeha.
In the US, about 28% of the population of 105 million became infected, and 500,000 to 850,000 died (0.48 to 0.81 percent of the population). Native American tribes were particularly hard hit. In the Four Corners area, there were 3,293 registered deaths among Native Americans. Entire Inuit and Alaskan Native village communities died in Alaska. In Canada, 50,000 died.
In Brazil, 300,000 died, including president Rodrigues Alves.
In Britain, as many as 250,000 died; in France, more than 400,000.
In Ghana, the influenza epidemic killed at least 100,000 people. Tafari Makonnen (the future Haile Selassie, Emperor of Ethiopia) was one of the first Ethiopians who contracted influenza but survived. Many of his subjects did not; estimates for fatalities in the capital city, Addis Ababa, range from 5,000 to 10,000, or higher.
The death toll in Russia has been estimated at 450,000, though the epidemiologists who suggested this number called it a "shot in the dark". If it is correct, Russia lost roughly 0.4% of its population, meaning it suffered the lowest influenza-related mortality in Europe. Another study considers this number unlikely, given that the country was in the grip of a civil war, and the infrastructure of daily life had broken down; the study suggests that Russia's death toll was closer to 2%, or 2.7 million people.
Devastated communities
Even in areas where mortality was low, so many adults were incapacitated that much of everyday life was hampered. Some communities closed all stores or required customers to leave orders outside. There were reports that healthcare workers could not tend the sick nor the gravediggers bury the dead because they too were ill. Mass graves were dug by steam shovel and bodies buried without coffins in many places.
Bristol Bay, a region of Alaska populated by indigenous people, suffered a death rate of 40 percent of the total population, with some villages entirely disappearing.
Several Pacific island territories were hit particularly hard. The pandemic reached them from New Zealand, which was too slow to implement measures to prevent ships, such as Talune, carrying the flu from leaving its ports. From New Zealand, the flu reached Tonga (killing 8% of the population), Nauru (16%), and Fiji (5%, 9,000 people). Worst affected was Western Samoa, formerly German Samoa, which had been occupied by New Zealand in 1914. 90% of the population was infected; 30% of adult men, 22% of adult women, and 10% of children died. By contrast, Governor John Martin Poyer prevented the flu from reaching neighboring American Samoa by imposing a blockade. The disease spread fastest through the higher social classes among the indigenous peoples, because of the custom of gathering oral tradition from chiefs on their deathbeds; many community elders were infected through this process.
In Iran, the mortality was very high: according to an estimate, between 902,400 and 2,431,000, or 8% to 22% of the total population died. The country was going through the Persian famine of 1917–1919 concurrently.
In Ireland, during the worst 12 months, the Spanish flu accounted for one-third of all deaths.
In South Africa it is estimated that about 300,000 people amounting to 6% of the population died within six weeks. Government actions in the early stages of the virus' arrival in the country in September 1918 are believed to have unintentionally accelerated its spread throughout the country. Almost a quarter of the working population of Kimberley, consisting of workers in the diamond mines, died. In British Somaliland, one official estimated that 7% of the native population died. This huge death toll resulted from an extremely high infection rate of up to 50% and the extreme severity of the symptoms, suspected to be caused by cytokine storms.
Less-affected areas
In the Pacific, American Samoa and the French colony of New Caledonia succeeded in preventing even a single death from influenza through effective quarantines. However, the outbreak was delayed into 1926 for American Samoa and 1921 for New Caledonia as the quarantine period ended. On American Samoa, at least 25% of the island residents were clinically attacked and 0.1% died, and on New Caledonia, there was widespread illness and 0.1% population died. Australia also managed to avoid the first two waves with a quarantine. Iceland protected a third of its population from exposure by blocking the main road of the island. By the end of the pandemic, the isolated island of Marajó, in Brazil's Amazon River Delta had not reported an outbreak. Saint Helena also reported no deaths.
Estimates for the death toll in China have varied widely, a range which reflects the lack of centralized collection of health data at the time due to the Warlord period. China may have experienced a relatively mild flu season in 1918 compared to other areas of the world. However, some reports from its interior suggest that mortality rates from influenza were perhaps higher in at least a few locations in China in 1918. At the very least, there is little evidence that China as a whole was seriously affected by the flu compared to other countries in the world.
The first estimate of the Chinese death toll was made in 1991 by Patterson and Pyle, which estimated a toll of between 5 and 9 million. However, this 1991 study was criticized by later studies due to flawed methodology, and newer studies have published estimates of a far lower mortality rate in China. For instance, Iijima in 1998 estimates the death toll in China to be between 1 and 1.28 million based on data available from Chinese port cities. The lower estimates of the Chinese death toll are based on the low mortality rates that were found in Chinese port cities (for example, Hong Kong) and on the assumption that poor communications prevented the flu from penetrating the interior of China. However, some contemporary newspaper and post office reports, as well as reports from missionary doctors, suggest that the flu did penetrate the Chinese interior and that influenza was severe in at least some locations in the countryside of China.
Although medical records from China's interior are lacking, extensive medical data were recorded in Chinese port cities, such as then British-controlled Hong Kong, Canton, Peking, Harbin and Shanghai. These data were collected by the Chinese Maritime Customs Service, which was largely staffed by non-Chinese foreigners, such as the British, French, and other European colonial officials in China. As a whole, data from China's port cities show low mortality rates compared to other cities in Asia. For example, the British authorities at Hong Kong and Canton reported a mortality rate from influenza at a rate of 0.25% and 0.32%, much lower than the reported mortality rate of other cities in Asia, such as Calcutta or Bombay, where influenza was much more devastating. Similarly, in the city of Shanghai – which had a population of over 2 million in 1918 – there were only 266 recorded deaths from influenza among the Chinese population in 1918. If extrapolated from the extensive data recorded from Chinese cities, the suggested mortality rate from influenza in China as a whole in 1918 was likely lower than 1% – much lower than the world average (which was around 3–5%). In contrast, Japan and Taiwan had reported a mortality rate from influenza around 0.45% and 0.69% respectively, higher than the mortality rate collected from data in Chinese port cities, such as Hong Kong (0.25%), Canton (0.32%), and Shanghai.
However, it is noted that the influenza mortality rate in Hong Kong and Canton are under-recorded, because only the deaths that occurred in colony hospitals were counted. Similarly, in Shanghai, these statistics are limited to that area of the city under the control of the health section of the Shanghai International Settlement, and the actual death toll in Shanghai was much higher. The medical records from China's interior indicate that, compared to cities, rural communities have substantially higher mortality rate. A published influenza survey in Houlu County, Hebei Province, found that the case fatality rate was 9.77% and 0.79% of county population died from influenza in October and November, 1918.
Patterns of fatality
The pandemic mostly killed young adults. In 1918–1919, 99% of pandemic influenza deaths in the U.S. occurred in people under 65, and nearly half of deaths were in young adults 20 to 40 years old. In 1920, the mortality rate among people under 65 had decreased sixfold to half the mortality rate of people over 65, but 92% of deaths still occurred in people under 65. This is unusual since influenza is typically most deadly to weak individuals, such as infants under age two, adults over age 70, and the immunocompromised. In 1918, older adults may have had partial protection caused by exposure to the 1889–1890 flu pandemic, known as the "Russian flu". According to historian John M. Barry, the most vulnerable of all – "those most likely, of the most likely", to die – were pregnant women. He reported that in thirteen studies of hospitalized women in the pandemic, the death rate ranged from 23% to 71%. Of the pregnant women who survived childbirth, over one-quarter (26%) lost the child. Another oddity was that the outbreak was widespread in the summer and autumn (in the Northern Hemisphere); influenza is usually worse in winter.
There were also geographic patterns to the disease's fatality. Some parts of Asia had 30 times higher death rates than some parts of Europe, and generally, Africa and Asia had higher rates, while Europe and North America had lower ones. There was also great variation within continents, with three times higher mortality in Hungary and Spain compared to Denmark, two to three times higher chance of death in Sub-Saharan Africa compared to North Africa, and possibly up to ten times higher rates between the extremes of Asia. Cities were affected worse than rural areas. There were also differences between cities, which might have reflected exposure to the milder first wave giving immunity, as well as the introduction of social distancing measures.
Another major pattern was the differences between social classes. In Oslo, death rates were inversely correlated with apartment size, as the poorer people living in smaller apartments died at a higher rate. Social status was also reflected in the higher mortality among immigrant communities, with Italian Americans, a recently arrived group at the time, were nearly twice as likely to die compared to the average Americans. These disparities reflected worse diets, crowded living conditions, and problems accessing healthcare. Paradoxically, however, African Americans were relatively spared by the pandemic.
More men than women were killed by the flu, as they were more likely to go out and be exposed, while women would tend to stay at home. For the same reason men also were more likely to have pre-existing tuberculosis, which severely worsened the chances of recovery. However, in India the opposite was true, potentially because Indian women were neglected with poorer nutrition, and were expected to care for the sick.
A study conducted by He et al. (2011) used a mechanistic modeling approach to study the three waves of the 1918 influenza pandemic. They examined the factors that underlie variability in temporal patterns and their correlation to patterns of mortality and morbidity. Their analysis suggests that temporal variations in transmission rate provide the best explanation, and the variation in transmission required to generate these three waves is within biologically plausible values. Another study by He et al. (2013) used a simple epidemic model incorporating three factors to infer the cause of the three waves of the 1918 influenza pandemic. These factors were school opening and closing, temperature changes throughout the outbreak, and human behavioral changes in response to the outbreak. Their modeling results showed that all three factors are important, but human behavioral responses showed the most significant effects.
Effects
World War I
Academic Andrew Price-Smith has made the argument that the virus helped tip the balance of power in the latter days of the war towards the Allied cause. He provides data that the viral waves hit the Central Powers before the Allied powers and that both morbidity and mortality in Germany and Austria were considerably higher than in Britain and France. A 2006 Lancet study corroborates higher excess mortality rates in Germany (0.76%) and Austria (1.61%) compared to Britain (0.34%) and France (0.75%).
Kenneth Kahn at Oxford University Computing Services writes that "Many researchers have suggested that the conditions of the war significantly aided the spread of the disease. And others have argued that the course of the war (and subsequent peace treaty) was influenced by the pandemic." Kahn has developed a model that can be used on home computers to test these theories.
Economic
Many businesses in the entertainment and service industries suffered losses in revenue, while the healthcare industry reported profit gains. Historian Nancy Bristow has argued that the pandemic, when combined with the increasing number of women attending college, contributed to the success of women in the field of nursing. This was due in part to the failure of medical doctors, who were predominantly men, to contain and prevent the illness. Nursing staff, who were mainly women, celebrated the success of their patient care and did not associate the spread of the disease with their work.
A 2020 study found that US cities that implemented early and extensive non-medical measures (quarantine, etc.) suffered no additional adverse economic effects due to implementing those measures, when compared with cities that implemented measures late or not at all.
Long-term effects
A 2006 study in the Journal of Political Economy found that "cohorts in utero during the pandemic displayed reduced educational attainment, increased rates of physical disability, lower income, lower socioeconomic status, and higher transfer payments received compared with other birth cohorts." A 2018 study found that the pandemic reduced educational attainment in populations. The flu has also been linked to the outbreak of encephalitis lethargica in the 1920s.
Survivors faced an elevated mortality risk. Some survivors did not fully recover from physiological condition(s).
Legacy
Despite the high morbidity and mortality rates that resulted from the epidemic, the Spanish flu began to fade from public awareness over the decades until the arrival of news about bird flu and other pandemics in the 1990s and 2000s. This has led some historians to label the Spanish flu a "forgotten pandemic".
There are various theories of why the Spanish flu was "forgotten". The rapid pace of the pandemic, which killed most of its victims in the United States within less than nine months, resulted in limited media coverage. The general population was familiar with patterns of pandemic disease in the late 19th and early 20th centuries: typhoid, yellow fever, diphtheria, and cholera all occurred near the same time. These outbreaks probably lessened the significance of the influenza pandemic for the public. In some areas, the flu was not reported on, the only mention being that of advertisements for medicines claiming to cure it.
Additionally, the outbreak coincided with the deaths and media focus on the First World War. Another explanation involves the age group affected by the disease. The majority of fatalities, from both the war and the epidemic, were among young adults. The high number of war-related deaths of young adults may have overshadowed the deaths caused by flu.
When people read the obituaries, they saw the war or postwar deaths and the deaths from the influenza side by side. Particularly in Europe, where the war's toll was high, the flu may not have had a tremendous psychological impact or may have seemed an extension of the war's tragedies. The duration of the pandemic and the war could have also played a role. The disease would usually only affect a particular area for a month before leaving. The war, however, had initially been expected to end quickly but lasted for four years by the time the pandemic struck.
In fiction and other literature
The Spanish flu has been represented in numerous works of fiction:
- Katherine Anne Porter's novella Pale Horse, Pale Rider, published under the same title in a 1930 collection of three works
- 1918, a 1985 American drama film.
- The Last Town on Earth, a 2006 novel.
- Spanish Flu: The Forgotten Fallen, a 2009 British television series.
- Downton Abbey, a 2010 British historical drama television series.
- Vampyr, a 2018 video game.
- Resident Evil Village, a 2021 video game.
In addition, Mary McCarthy referred to it in her memoir Memories of a Catholic Girlhood (1957), as she and her three brothers were orphaned by their parents' deaths from the flu.
Comparison with other pandemics
The Spanish flu killed a much lower percentage of the world's population than the Black Death, which lasted for many more years.
In the ongoing COVID-19 pandemic, as of 11 August 2021, more than 204 million cases have been identified and more than 4.31 million deaths recorded worldwide.
Name | Date | World pop. | Subtype | Reproduction number | Infected (est.) | Deaths worldwide | Case fatality rate | Pandemic severity |
---|---|---|---|---|---|---|---|---|
1889–90 flu pandemic | 1889–90 | 1.53 billion | Likely H3N8 or H2N2 | 2.10 (IQR, 1.9–2.4) | 20–60% (300–900 million) | 1 million | 0.10–0.28% | 2 |
Spanish flu | 1918–20 | 1.80 billion | H1N1 | 1.80 (IQR, 1.47–2.27) | 33% (500 million) or >56% (>1 billion) | 17–100 million | 2–3%, or ~4%, or ~10% | 5 |
Asian flu | 1957–58 | 2.90 billion | H2N2 | 1.65 (IQR, 1.53–1.70) | >17% (>500 million) | 1–4 million | <0.2% | 2 |
Hong Kong flu | 1968–69 | 3.53 billion | H3N2 | 1.80 (IQR, 1.56–1.85) | >14% (>500 million) | 1–4 million | <0.2% | 2 |
1977 Russian flu | 1977–79 | 4.21 billion | H1N1 | ? | ? | 0.7 million | ? | ? |
2009 swine flu pandemic | 2009–10 | 6.85 billion | H1N1/09 | 1.46 (IQR, 1.30–1.70) | 11–21% (0.7–1.4 billion) | 151,700–575,400 | 0.01% | 1 |
Typical seasonal flu | Every year | 7.75 billion | A/H3N2, A/H1N1, B, ... | 1.28 (IQR, 1.19–1.37) | 5–15% (340 million – 1 billion) 3–11% or 5–20% (240 million – 1.6 billion) |
290,000–650,000/year | <0.1% | 1 |
Research
The origin of the Spanish flu pandemic, and the relationship between the near-simultaneous outbreaks in humans and swine, have been controversial. One hypothesis is that the virus strain originated at Fort Riley, Kansas, in viruses in poultry and swine which the fort bred for food; the soldiers were then sent from Fort Riley around the world, where they spread the disease. Similarities between a reconstruction of the virus and avian viruses, combined with the human pandemic preceding the first reports of influenza in swine, led researchers to conclude the influenza virus jumped directly from birds to humans, and swine caught the disease from humans.
Others have disagreed, and more recent research has suggested the strain may have originated in a nonhuman, mammalian species. An estimated date for its appearance in mammalian hosts has been put at the period 1882–1913. This ancestor virus diverged about 1913–1915 into two clades (or biological groups), which gave rise to the classical swine and human H1N1 influenza lineages. The last common ancestor of human strains dates between February 1917 and April 1918. Because pigs are more readily infected with avian influenza viruses than are humans, they were suggested as the original recipients of the virus, passing the virus to humans sometime between 1913 and 1918.
An effort to recreate the Spanish flu strain (a subtype of avian strain H1N1) was a collaboration among the Armed Forces Institute of Pathology, the USDA ARS Southeast Poultry Research Laboratory, and Mount Sinai School of Medicine in New York City. The effort resulted in the announcement (on 5 October 2005) that the group had successfully determined the virus's genetic sequence, using historic tissue samples recovered by pathologist Johan Hultin from an Inuit female flu victim buried in the Alaskan permafrost and samples preserved from American soldiers Roscoe Vaughan and James Downs.
On 18 January 2007, Kobasa et al. (2007) reported that monkeys (Macaca fascicularis) infected with the recreated flu strain exhibited classic symptoms of the 1918 pandemic, and died from cytokine storms – an overreaction of the immune system. This may explain why the Spanish flu had its surprising effect on younger, healthier people, as a person with a stronger immune system would potentially have a stronger overreaction.
On 16 September 2008, the body of British politician and diplomat Sir Mark Sykes was exhumed to study the RNA of the flu virus in efforts to understand the genetic structure of modern H5N1 bird flu. Sykes had been buried in 1919 in a lead coffin which scientists hoped had helped preserve the virus. The coffin was found to be split and the cadaver badly decomposed; nonetheless, samples of lung and brain tissue were taken.
In December 2008, research by Yoshihiro Kawaoka of the University of Wisconsin linked the presence of three specific genes (termed PA, PB1, and PB2) and a nucleoprotein derived from Spanish flu samples to the ability of the flu virus to invade the lungs and cause pneumonia. The combination triggered similar symptoms in animal testing.
In June 2010, a team at the Mount Sinai School of Medicine reported the 2009 flu pandemic vaccine provided some cross-protection against the Spanish flu pandemic strain.
One of the few things known for certain about influenza in 1918 and for some years after was that it was, except in the laboratory, exclusively a disease of human beings.
In 2013, the AIR Worldwide Research and Modeling Group "characterized the historic 1918 pandemic and estimated the effects of a similar pandemic occurring today using the AIR Pandemic Flu Model". In the model, "a modern-day 'Spanish flu' event would result in additional life insurance losses of between US$15.3–27.8 billion in the United States alone", with 188,000–337,000 deaths in the United States.
In 2018, Michael Worobey, an evolutionary biology professor at the University of Arizona who is examining the history of the 1918 pandemic, revealed that he obtained tissue slides created by William Rolland, a physician who reported on a respiratory illness likely to be the virus while a pathologist in the British military during World War One. Rolland had authored an article in the Lancet during 1917 about a respiratory illness outbreak beginning in 1916 in Étaples, France. Worobey traced recent references to that article to family members who had retained slides that Rolland had prepared during that time. Worobey extracted tissue from the slides to potentially reveal more about the origin of the pathogen.
Gender mortality gap
The high mortality rate of the influenza pandemic is one aspect that sets the pandemic apart from other disease outbreaks. Another factor is the higher mortality rate of men compared with women. Men with an underlying condition were at significantly more risk. Tuberculosis was one of the deadliest diseases in the 1900s, and killed more men than women. But with the spread of influenza disease, the cases of tuberculosis cases in men decreased. Many scholars have noted that tuberculosis increased the mortality rate of influenza in males, decreasing their life expectancy. During the 1900s tuberculosis was more common in males than females, but studies show that when influenza spread the tuberculosis mortality rate among females changed. The death rate of tuberculosis in females increased significantly and would continue to decline until post-pandemic.
Death rates were particularly high in those aged 20–35. The only comparable disease to this was the black death, bubonic plague in the 1300s. As other studies have shown, tuberculosis and influenza had comorbidities and one affected the other. The ages of males dying of the flu show that tuberculosis was a factor, and as males primarily had this disease at the time of the pandemic, they had a higher mortality rate. Life expectancy dropped in males during the pandemic but then increased two years after the pandemic.
Island of Newfoundland
One major cause of the spread of influenza was social behavior. Men had more social variation and were mobile more than women due to their work. Even though there was a higher mortality rate in males, each region showed different results, due to such factors as nutritional deficiency. In Newfoundland the pandemic spread was highly variable. Influenza did not discriminate who was infected, indeed it attacked the socioeconomic status of people. Although social variability allowed the disease to move quickly geographically, it tended to spread faster and affect men more than women due to labor and social contact. Newfoundland's leading cause of death before the pandemic was tuberculosis and this is known to be a severe underlying condition for people and increases the |mortality rate when infected by the influenza disease. There was diverse labor in Newfoundland, men and women had various occupations that involved day-to-day interaction. But, fishing had a major role in the economy and so males were more mobile than females and had more contact with other parts of the world. The spread of the pandemic is known to have begun in the spring of 1918, but Newfoundland didn't see the deadly wave until June or July, which aligns with the high demand for employment in the fishery. The majority of men were working along the coast during the summer and it was typical for entire families to move to Newfoundland and work. Studies show a much higher mortality rate in males compared with females. But, during the first, second, and third waves of the pandemic, the mortality shifted. During the first wave, men had a higher mortality rate, but the mortality rate of females increased and was higher during the second and third waves. The female population was larger in certain regions of Newfoundland and therefore had a bigger impact on the death rate.
Influenza pandemic among Canadian soldiers
Records indicate the most deaths during the first wave of the pandemic were among young men in their 20s, which reflects the age of enlistment in the war. The mobility of young men during 1918 was linked to the spread of influenza and the biggest wave of the epidemic. In late 1917 and throughout 1918, thousands of male troops gathered at the Halifax port before heading to Europe. Any soldier that was ill and could not depart was added to the population of Halifax, which increased the case rate of influenza among men during the war. To determine the cause of the death during the pandemic, war scientists used the Commonwealth War Graves Commission (CWGC), which reported under 2 million men and women died during the wars, with a record of those who died from 1917 to 1918. The movement of soldiers during this time and the transportation from United States between Canada likely had a significant effect on the spread of the pandemic