Protective sequestration

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Protective sequestration, in public health, is social distancing measures taken to protect a small, defined, and still-healthy population from outsiders during an epidemic (or pandemic) before the infection reaches that population. It is sometimes referred to as "reverse cordon sanitaire ."

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Due to the disruption that protective sequestration can cause, it is typically considered only under exceptional circumstances where implementation and enforcement are feasible. It is more easily achieved in circumstances where voluntary compliance of the sequestered population is likely.

Terminology

The term "protective sequestration" was coined by Howard Markel and his colleagues, in their paper that described the successes and failures of several communities in the United States in their attempts to shield themselves from the 1918–1920 Spanish flu pandemic during the second wave of that pandemic (September–December 1918). [1] The term avoids the use of the word quarantine, which, in public health, refers to the voluntary or enforced detention of a person who, because of actual or possible contact with an infectious agent, may have become infected and therefore be capable of passing it along to others. The duration of quarantine is determined by the incubation period of the infection, i.e., the time between acquisition of the infectious agent and the development of signs or symptoms of the illness caused by that agent.[ citation needed ]

Advantages and disadvantages

An advantage of protective sequestration is that it shields selected people from infection and possibly buys them time for the development and distribution of drugs or vaccine. A disadvantage, apart from its elitism and social and economic cost, is that those sequestered have no opportunity to develop naturally-acquired immunity to the infectious agent through contact with it, and, therefore, they remain susceptible to the agent during subsequent waves of the epidemic or pandemic.[ citation needed ]

Usage

Spanish flu

During the 1918 Spanish flu pandemic, factors that contributed to the rare successes of protective sequestration were the following:

The best known historical example is the measures taken by the town of Gunnison, Colorado, during the 1918 influenza epidemic. To prevent an introduction of the infection, the town isolated itself from the surrounding area for two months at the end of 1918. [2] All highways were barricaded near the county lines. Train conductors warned all passengers that if they stepped outside of the train in Gunnison, they would be arrested and quarantined for five days. Although no deaths from the flu were recorded during the sequestration, [3] it was not sustainable long-term; as townspeople became increasingly restless, the restrictions were lifted in February 1919, but a flu outbreak hit Gunnison in March, killing five people. [4] Several other communities adopted similar measures. [1]

Princeton University utilized protective sequestration and avoided any fatalities. [5]

In the South Pacific, the Governor of American Samoa, John Martin Poyer, imposed a reverse cordon sanitaire of the islands from all incoming ships, successfully achieving zero deaths within the territory during the influenza epidemic. [6] In contrast, the neighboring New Zealand-controlled Western Samoa was among the hardest hit, with a 90% infection rate and over 20% of its adults dying from the disease. [7]

In late 1918, Spain attempted unsuccessfully to prevent the spread of the Spanish flu by imposing border controls, roadblocks, restricted rail travel, and a maritime cordon sanitaire prohibiting ships with sick passengers from landing, but by then the epidemic was already in progress in Spain. [8]

COVID-19 pandemic

See also

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<span class="mw-page-title-main">Quarantine</span> Epidemiological intervention to prevent disease transmission

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References

  1. 1 2 Markel, Howard; Stern, Alexandra; Navarro, J.; Michalsen, Joseph; Monto, Arnold; Digiovanni, Cleto (2006). "Nonpharmaceutical Influenza Mitigation Strategies, US Communities, 1918–1920 Pandemic". Emerging Infectious Diseases. 12 (12): 1961–1964. doi:10.3201/eid1212.060506. PMC   3291356 . PMID   17326953.
  2. von Csefalvay, Chris (2023), "Modeling the control of infectious disease", Computational Modeling of Infectious Disease, Elsevier, pp. 173–215, doi:10.1016/b978-0-32-395389-4.00015-3, ISBN   978-0-323-95389-4 , retrieved 2023-03-02
  3. Gunnison: Case Study, University of Michigan Medical School, Center for the History of Medicine
  4. "The 1918 Spanish flu killed 8,000 people in Colorado, but Gunnison only had 2 cases. Here's why". KUSA.com. 4 March 2020. Retrieved 2020-12-19.
  5. Why Princeton was spared: The University lost no one in the deadly 1918 flu pandemic, providing lessons to consider 90 years later
  6. Peter Oliver Okin, The Yellow Flag of Quarantine: An Analysis of the Historical and Prospective Impacts of Socio-Legal Controls Over Contagion, doctoral dissertation, University of South Florida, January 2012; p. 232
  7. John Poyer, Commander, US Navy, Navy Cross citation
  8. R. Davis, The Spanish Flu: Narrative and Cultural Identity in Spain, 1918, Springer, 2013. ISBN   1137339217
  9. "Havasupai Ill Equipped To Handle COVID-19, Close Canyon," Laurel Morales, Fronteras, Thursday, April 9, 2020.
  10. Alejandro de la Garza, "Alaska's Remote Villages Are Cutting Themselves Off to Avoid Even 'One Single Case' of Coronavirus," Time, March 31, 2020