| Year/period | Type of event | Event | Location | | 1789 | Medical development | British physician Michael Underwood is the first to give a clinical description of poliomyelitis.[4] | United Kingdom |
| 1840 | Medical development | German orthopaedist Jakob Heine becomes the first to write a medical report on poliomyelitis, and the first to recognize the illness as a clinical entity.[4] | Germany |
| 1894 | Epidemic | First poliomyelitis epidemic breaks out in the United States. Eighteen deaths and 132 cases of permanent paralysis are reported.[5] | United States (Vermont) |
| 1905 | Epidemic | Poliomyelitis epidemic breaks out in the Scandinavian peninsula. 1,031 cases are reported.[6][7] | Sweden, Norway |
| 1908 | Scientific development | Austrian physicians Karl Landsteiner and Erwin Popper discover the etiologic agent of poliomyelitis by identifying a virus when transmitting the disease to a monkey.[6] | Austria (Vienna) |
| 1910 | Scientific development | American scientists Simon Flexner and Paul Lewis suggest that poliovirus gain access to the central nervous system via the nasal mucosa. This hypothesis is supported by experiments with monkeys performed by Flexner’s group and other researchers.[6] |
| 1916 | Epidemic | Large epidemic of poliomyelitis breaks out in the United States. In New York City 9,000 cases and 2,343 deaths are reported, while toll nationwide is reported at 27,000 cases and 6,000 deaths.[8] | United States |
| 1927 | Organization | American politician Franklin D. Roosevelt founds Warm Springs Foundation for polio rehabilitation. In 1980 the facility is renamed Roosevelt Warm Springs Institute for Rehabilitation. Today, the organization treats patients with post-polio symptoms, spinal cord injuries, strokes, and other disabilities.[9] | United States (Georgia) |
| 1928 | Medical development | American industrial hygienist Philip Drinker along with Louis Agassiz Shaw, Jr. develop the iron lung, a negative pressure ventilator that enables a person to breathe when normal muscle control has been lost or the work of breathing exceeds the person's ability. It becomes popular after its successful first use in a girl with poliomyelitis, showing dramatic recovery in a very short period of time.[10] | United States |
| 1931 | Scientific development | Australian scientists Frank Macfarlane Burnet and Jean Macnamara discover the existence of antigenic differences between strains of poliovirus, comparing the famous Rockefeller MV strain with a local strain isolated in Melbourne and further finding striking differences in cross-immunity experiments and neutralization tests in monkeys.[6] | Australia |
| 1935 | Crisis | Canadian researcher Maurice Brodie works in the development of a vaccine made from a killed strain of poliovirus. While successful in twenty laboratory monkeys, the trials fail when performed on humans. The same year, American researcher John A. Kolmer, working on his own vaccine using weakened poliovirus, fails even worse when a large number of children who were administered his vaccine become ill and many die.[11] | United States |
| 1939 | Medical development | American physician Charles Armstrong manages to adapt the Lansing strain of poliovirus to mice, making available for research purposes an animal far less expensive than the monkey.[6] | United States |
| 1940 | Medical development | Australian nurse Elizabeth Kenny introduces new treatment for polio, using warm compresses to relax painful, contracting muscles and massage for rehabilitation. Unconventional and controversial at the beginning, eventually this treatment becomes part of standard care for poliomyelitis.[12] | United States |
| 1948 | Scientific development | Team led by American biomedical scientist John Franklin Enders, at Harvard University, succeeds in culturing poliovirus in the laboratory outside of a living body. In 1949, the team publishes the experiments and findings, which would make mass production of vaccine possible. In 1954 the researchers were awarded the Nobel Prize.[11] | United States |
| 1953 | Medical development | American medical researcher Jonas Salk and his associates develop a potentially safe, inactivated (killed), injected polio vaccine. By 1955, the Salk vaccine is recognized as safe, effective and potent. Salk is hailed hero by the public and is granted a license to market his vaccine by the government.[11] | United States |
| 1955–1960 | Medical development | Polish American medical researcher Albert Sabin develops an oral polio vaccine. Initially overlooked due to Salk vaccine success, in 1957 the World Health Organization authorizes mass vaccination of children living in areas suffering from poliomyelitis epidemics. By 1959, about 4.5 million people in Russia have received the oral vaccine, making the incidence of polio in that country decrease markedly by 1959. Due to these results, the Sabin vaccine is licensed for use in the United States [11] |
| 1961 | Report | As a result of the first immunization campaigns, only 161 poliomyelitis cases are recorded in the United States, down from 35,000 in 1953 to 5,600 by 1957.[1] | United States |
| 1962–1970 | Medical development | The Salk vaccine is gradually replaced by the oral Sabin vaccine for most purposes because it is easier to administer and less expensive.[13][14] | Worldwide |
| 1979 | Program launch | Rotary International commits to provide oral polio vaccine to six million children in the Philippines as part of its new Health, Hunger and Humanity (3-H) program. Following the success of the program, Rotary begins to work with Albert Sabin on a plan to immunize all children against poliomyelitis.[15] | Philippines |
| 1980 | Program launch | Brazil implements National Immunization Days against infantile paralysis as part of the strategy to eliminate poliomyelitis. The initial objective is to achieve high coverage to interrupt transmission of poliovirus, with an established target of vaccinating 95% of children younger than five years with oral poliovirus vaccine. By 1989, a case of poliomyelitis in Brazil is confirmed for the last time.[16] | Brazil |
| 1981 | Scientific development | American researchers Vincent Racaniello and David Baltimore at Massachusetts Institute of Technology; and team led by German American virologist Eckard Wimmer at State University of New York, publish the poliovirus genome. The researchers used an enzyme to switch the single strands of viral RNA to double strands of DNA and then determined the sequence of adenine, thymine, guanine, and cytosine encoding the five molecules that are the substance of the virus’s existence.[17] | United States |
| 1985 | Program launch | Rotary International announces a US$120 million pledge to its new PolioPlus program as a twenty-year commitment to immunize all children of the world against poliomyelitis by 2005. So far, Rotary has been the largest private sector donor to polio eradication, committing over US$600 million to the cause.[15][18] | Worldwide |
| 1985 | Program launch | The Universal Childhood Immunization Initiative is launched jointly by UNICEF and WHO, with the purpose of reducing child mortality through effective immunization.[15][19] | Worldwide |
| 1985 | Program launch | The Pan American Health Organization launches initiative to eradicate the indigenous transmission of wild poliovirus from the WHO region of the Americas by the end of 1990.[15] | Americas |
| 1988 | Program launch | The World Health Organization resolutes to eradicate poliomyelitis globally by 2000 through several delivery strategies, including reinforcement of existing initiatives such as National Immunization Days (NIDs) and sub-national immunization days. By 2016, the resolution was not achieved.[20] |
| 1988 | Program launch | The World Health Assembly (WHA) launches a global goal to eradicate poliomyelitis by 2000. This goal is further moved to stopping transmission by end of 2005.[15] | Worldwide |
| 1996 | Program launch | South African politician Nelson Mandela launches Kick Polio out of Africa campaign, with aims at eradicating the disease from Africa. By 2003, poliomyelitis remains in only three countries (Nigeria, Niger and Egypt) out of 46.[15][21] | Africa |
| 1999 | Medical development | inactivated polio vaccine replaces oral polio vaccine as recommended method of polio immunization in the United States. |
| 1994 | Achievement | Following successful eradication programs such as that of Brazil, poliomyelitis is confirmed eliminated in the Americas.[16][22] | Western Hemisphere |
| 1999 | Report | The last case of wild poliovirus (WPVs) type 2 is reported.[2] | India (Aligarh) |
| 2002 | Achievement | European WHO region is certified free of poliomyelitis.[4] | Europe, Turkey, ex USSR |
| 2003 | Epidemic | Political and religious leaders of Kano, Zamfara, and Kaduna states in Nigeria bring the immunization campaign to a halt by calling on parents not to allow their children to be immunized. Polio immunization is suspended, thus leading to poliomyelitis outbreak and reinfecting at least other six countries (Burkina Faso, Central African Republic, Chad, Côte d’Ivoire, Mali, and Sudan).[15][23] | Africa |
| 2004 | Program launch | Upon emergency meeting of Health Ministers committed to end polio transmission, a massive immunization campaign is conducted in 22 African countries, reaching 80 million children, becoming one of the World’s largest public health campaigns.[15][24] | Africa |
| 2012 | Report | Poliovirus serotype WPV3 is last reported.[51] | Nigeria |
| 2012 | Report | Poliomyelitis remains officially endemic in four countries.[4] | Afghanistan, Nigeria, Pakistan, India |
| 2015 | Achievement | Poliovirus serotype WPV2 is declared eradicated worldwide.[2][25] |
| 2016 | Report | The only three endemic countries as of 2016 are Afghanistan, Pakistan and Nigeria.[22] | Afghanistan, Nigeria, Pakistan |
|
1. ^1 {{cite journal|title=POLIO: A REVIEW|journal=International Journal of Pharmaceutical Sciences and Research|doi=10.13040/IJPSR.0975-8232.4(5).1714-24|url=http://ijpsr.com/bft-article/polio-a-review/?view=fulltext|accessdate=11 January 2017}}
2. ^1 2 {{cite web|title=History of Polio|url=http://polioeradication.org/polio-today/history-of-polio/|website=polioeradication.org|accessdate=9 January 2017}}
3. ^1 {{cite journal|last1=Gothefors|first1=Leif|title=The Impact of Vaccines in Low- and High-Income Countries|journal=Department of Clinical Sciences/Paediatrics, Umeå University, Umeå, Sweden|doi=10.1159/000129623|url=https://www.karger.com/Article/Pdf/129623|accessdate=14 January 2017}}
4. ^1 2 3 4 {{cite web|title=History of polio BBC|url=https://www.bbc.com/news/health-17045202|publisher=BBC News|accessdate=9 January 2017}}
5. ^{{cite web|title=Polio cases report|url=http://www.historyofvaccines.org/content/first-us-polio-epidemic|website=historyofvaccines.org|accessdate=9 January 2017}}
6. ^1 2 3 4 {{cite journal|last1=Eggers|first1=Hans J.|title=Milestones in Early Poliomyelitis Research (1840 to 1949)|pmc=112492}}
7. ^{{cite book|last1=Smallman-Raynor|first1=Matthew|title=Poliomyelitis: Emergence to Eradication|url=https://books.google.com/books?id=pHo7wu4h0eYC&pg=PA93&lpg=PA93&dq=1905+epidemic+polio+scandinavia&source=bl&ots=k4WINw9b59&sig=gQQup6IolDr2skU2gM7dFxHCHAI&hl=en&sa=X&ved=0ahUKEwjo3cCp5bXRAhUBgZAKHep9DV0Q6AEIKDAD#v=onepage&q=1905%20epidemic%20polio%20scandinavia&f=false|accessdate=9 January 2017}}
8. ^{{cite web|title=Whatever happened to polio?|url=http://amhistory.si.edu/polio/americanepi/communities.htm|website=amhistory.si.edu|accessdate=9 January 2017}}
9. ^{{cite web|title=Roosevelt Warm Springs Institute for Rehabilitation|url=http://www.georgiaencyclopedia.org/articles/science-medicine/roosevelt-warm-springs-institute-rehabilitation|website=georgiaencyclopedia.org|accessdate=9 January 2017}}
10. ^{{cite web|title=Today in History: Iron Lung Used for the First Time (1928)|url=http://english.tebyan.net/newindex.aspx?pid=140096|website=english.tebyan.net|accessdate=9 January 2017}}
11. ^1 2 3 {{cite book|last1=True Peters|first1=Stephanie|title=The Battle Against Polio|url=https://books.google.com/books?id=7CwRnlvmtDsC&pg=PA45&lpg=PA45&dq=%221935%22+%22brodie%22+%22kolmer%22+%22polio%22&source=bl&ots=K9EWICOo3K&sig=t1bh6OKeOkxrauHXt2bZJ-kfnKU&hl=en&sa=X&ved=0ahUKEwj34YaLsrbRAhVDipAKHVoSAIEQ6AEIITAB#v=onepage&q=%221935%22%20%22brodie%22%20%22kolmer%22%20%22polio%22&f=false|accessdate=10 January 2017}}
12. ^{{cite web|title=Sister Kenny|url=http://amhistory.si.edu/polio/howpolio/medworld2.htm|website=amhistory.si.edu|accessdate=10 January 2017}}
13. ^{{cite journal|last1=Pearce|first1=J M S|title=Salk and Sabin: poliomyelitis immunisation|doi=10.1136/jnnp.2003.028530|url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1738787/pdf/v075p01552.pdf|accessdate=10 January 2017|pmc=1738787}}
14. ^{{cite book|last1=Persson|first1=Sheryl|title=Smallpox, Syphilis and Salvation: Medical Breakthroughs that Changed the World|url=https://books.google.com/books?id=ZA0v9N7S2LgC&pg=PA274&lpg=PA274&dq=%221962%22+%22salk%22+%22sabin%22+%22replaced%22+%22cheaper%22&source=bl&ots=0yteLukXBG&sig=7rdPxMenyoRAWisTm48BhPlQvJk&hl=en&sa=X&ved=0ahUKEwjN3s7Ox7bRAhUEDJAKHRn3C0UQ6AEIOzAF#v=onepage&q&f=false|accessdate=10 January 2017}}
15. ^1 2 3 4 5 6 7 8 9 10 {{cite web|title=Kul Gautam – A History of Global Polio Eradication|url=https://www.unicef.org/immunization/files/the_history_of_polio.pdf|website=unicef.org|accessdate=10 January 2017}}
16. ^1 {{cite journal|last1=Rocha MelloI|first1=Maria Lúcia|last2=Moraes|first2=José Cássio|last3=Brendan|first3=Helena Aparecida|last4=Flannery|first4=Brendan|title=Participation in national polio immunization days: results of a vaccine coverage survey among children in 27 Brazilian cities|journal=Revista Brasileira de Epidemiologia|doi=10.1590/S1415-790X2010000200010|url=http://www.scielo.br/scielo.php?pid=S1415-790X2010000200010&script=sci_arttext&tlng=en|accessdate=10 January 2017}}
17. ^{{cite web|title=The polio genome|url=http://amhistory.si.edu/polio/virusvaccine/pgenome.htm|website=amhistory.si.edu|accessdate=10 January 2017}}
18. ^{{cite book|title=The Rotarian|date=2001|page=53|url=https://books.google.com/books?id=qzIEAAAAMBAJ&pg=PA53&lpg=PA53&dq=%22polioplus+program%22+%22rotary%22+%221985%22&source=bl&ots=jr-s-YsPWG&sig=unPtxx_uyHlMpwerKo6lCqluF5Q&hl=en&sa=X&ved=0ahUKEwjSiou92LbRAhWMjZAKHRq_Cao4ChDoAQgzMAU#v=onepage&q=%22polioplus%20program%22%20%22rotary%22%20%221985%22&f=false|accessdate=10 January 2017}}
19. ^{{cite web|title=International Notes Update: Progress Toward Eradicating Poliomyelitis from the Americas|url=https://www.cdc.gov/mmwr/preview/mmwrhtml/00001728.htm|website=cdc.gov|accessdate=10 January 2017}}
20. ^{{cite web|title=National Immunization Day: a strategy to monitor health and nutrition indicators|url=http://www.who.int/bulletin/volumes/86/6/07-043638/en/|accessdate=10 January 2017}}
21. ^{{cite web|title=Address by President Nelson Mandela at the launch of the "Kick Polio Out of Africa" Campaign|url=http://www.mandela.gov.za/mandela_speeches/1996/960802_polio.htm|website=mandela.gov.za|accessdate=10 January 2017}}
22. ^1 2 {{cite web|title=History of Polio ( Poliomyelitis )|url=http://www.historyofvaccines.org/content/articles/history-polio-poliomyelitis|website=historyofvaccines.org|accessdate=9 January 2017}}
23. ^{{cite journal|last1=Jegede|first1=Ayodele Samuel|title=What Led to the Nigerian Boycott of the Polio Vaccination Campaign?|doi=10.1371/journal.pmed.0040073|pmc=1831725}}
24. ^{{cite web|title=West Africa mobilizes for final assault against polio|url=http://www.who.int/mediacentre/news/releases/2004/pr13/en/|publisher=WHO|accessdate=10 January 2017}}
25. ^1 {{cite web|title=Global eradication of wild poliovirus type 2 declared|url=http://polioeradication.org/news-post/global-eradication-of-wild-poliovirus-type-2-declared/|website=polioeradication.org|accessdate=9 January 2017}}
{{Use dmy dates|date=February 2019}}