Saturday, July 25, 2020

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World War II’s Warsaw Ghetto Holds Lifesaving Lessons for COVID-19

An outbreak of typhus in the densely packed walled enclosure was countered by adopting all-too-familiar public health measures
By Gary Stix on July 24, 2020




 Jewish children in the German-established Warsaw Ghetto clean a street as a hygienic measure against the ever- present danger of epidemics. Credit: Getty Images



A paper published on Friday in Science Advances reports on a sophisticated mathematical analysis that shows how personal hygiene, quarantines, social distancing and a grass-roots public education campaign appeared to extinguish a raging typhus epidemic in the Warsaw Ghetto in 1941. The incident stands out because these well-recognized health-preserving measures were promulgated successfully, even as the Nazis attempted to use starvation and typhus to wipe out 450,000 people packed into an area the size of New York City’s Central Park—five to 10 times the density of any city in today’s world.

The researchers say some of the lessons from typhus in the Warsaw Ghetto may carry over to COVID-19. “At a basic level, we learn how communities can use simple public health measures designed to beat infectious diseases,” says Lewi Stone, the study’s lead author. “Education, hygiene, motivation and cooperation are incredibly important in trying to beat the pandemic.”

Stone is a mathematical biologist at RMIT University in Australia and Tel Aviv University. And he is part of a community of researchers who simulate epidemiological events using sophisticated mathematical models to study modern outbreaks the plague, influenza and early-childhood diseases. These specialists have now trained an obsessive focus on COVID-19.

Previous work by Stone also explored historical themes. He used data based on railway records, for example, to examine the pace at which the Nazis transported and killed almost the entire Polish Jewish population.

Stone began this latest project three years ago, after he came upon a study that mentioned the World War II–era impact of the lice-borne bacterial illness typhus—a disease that took on a leading role during the Holocaust. The Science Advances paper explains that “the German discourse on hygiene was very much influenced by the anti-Semitic idea of Jews being notorious bearers of diseases. In the Nazis’ ideology, this evolved into Jews being the actual disease, so epidemics were to be naturally expected and dealt with, which in the end meant annihilating the Jews.”

When Stone started exploring the data that he found about typhus in the Warsaw Ghetto, he discovered that underreported official case and death statistics from the area diverged widely from epidemiologists’ records. It took time to reconcile the conflicting information. Details of Jews’ health in the ghetto from the end of 1940 to mid-1942 were intriguing but unclear. In an early analysis, Stone had been surprised that the epidemic had expired at the beginning of the winter of 1941–1942. Winter is when a contagious disease outbreak usually gets worse. For a year afterward, he thought the data might have been corrupted.

Stone recruited a multidisciplinary team of researchers: theoretical ecologist Yael Artzy-Randup of the University of Amsterdam, statistical modeler Daihai He of Hong Kong Polytechnic University and historian Stephan Lehnstaedt of Touro College Berlin. The group used a classical model for disease outbreaks that traces the up-and-down curves of cases. The model typically assumes a pathogen’s transmission rate through a population remains stable. But initially, the results it produced for the team’s study were highly implausible: the model estimated that three quarters of the 450,000 inmates were infected with the typhus bacterium, a number far higher than previous figures supplied by epidemiologists.

The classical model could only accommodate the data and produce a reasonable estimate of what happened when the transmission rate was allowed to vary over the course of the epidemic, permitting the scenario of a rapid decrease in the number of new cases. “To fit the data in a reasonable fashion, the transmissibility had to drop before the epidemic crashed,” Stone says. “And this is the tell-tale signature of public health interventions impacting the disease transmission and leading to its decline.” When the rate could vary, it elicited a far more plausible average estimate of 72,000 cases, along with a maximum estimate of 113,000. This result corresponded to the key historical reports.

The epidemic diminished rapidly before the winter of 1941–1942, a time when the number of new cases would be expected to grow faster. The historical record provided some clues as to what may have happened, based on a wide-ranging public health intervention. Residents’ medical organizations and citizen self-help networks within the Warsaw Ghetto taught health education courses, and the lectures sometimes attracted more than 900 people. An underground university taught medical students. Scientific research on starvation and epidemics was even carried out.

The model Stone and his team used for the epidemic’s trajectory indicated that without steps to fight the disease, the number of people infected would have been two to three times greater. Another factor that could have eased the number of infections—one only implied by the researchers' analysis—was a policy change by the Nazi administration to turn a blind eye on the smuggling of food into the ghetto in order to keep the residents strong enough to work for their incarcerators. It was estimated that for many of the workers, rations of less than 200 calories a day were elevated to about 780 calories, and this increase came largely from smuggled food.The unreliability of official statistics also left many deaths from typhus, starvation and other causes unrecorded. Estimates ranged as high as 5,000 to 9,000 deaths per month at the outbreak’s peak, when corpses were being deposited on the ghetto’s streets. As an alternative means of counting deaths, Stone used what he calls the “maths of food ration cards.” A drop of 118,000 cards on the rolls from March 1941 to July 1942 provided an estimate of a comparable loss of ghetto residents during that period, though Stone is continuing to research this statistic’s validity.

David J. D. Earn, an applied mathematician at McMaster University, who was not involved with the new study, says it is “a fascinating example of how modern mathematical and statistical methods can be used to identify likely mechanisms of disease spread and the effects of control measures. The inference that disease control efforts probably greatly reduced the magnitude of the typhus epidemic in the ghetto is illuminating, to say the least.”
Nina H. Fefferman, a mathematical epidemiologist and professor at the University of Tennessee, Knoxville, who was also not part of the study, raises questions about whether causes other than the public health measures might have contributed to the sudden decline in typhus cases. Did changes in mourning and burial practices lead to less contagion? Did improving nutrition help aid the decline?

Still, Fefferman calls the new research “wonderful.” This study, she says, “constructs a compelling case for the previously unacknowledged critical role good public health leadership and individual behavioral interventions may have played in the success a severely afflicted population had in curtailing and surviving the epidemic.”

The study makes a connection between the ghetto outbreak and the current pandemic. COVID-19 is more contagious but less deadly than typhus, which could kill more than 20 percent of those infected. Stone says the intersection of health and politics may have some parallels with the crisis today. “These same themes reappear,” he says, “only in an updated form for the 21st century, with the way minority groups are treated—and are, in fact, the true victims in COVID-19 days.”

Ultimately, the Warsaw Ghetto residents’ efforts gave survivors the briefest respite before the majority left were transported beginning in mid-1942, to the Treblinka death camp in occupied Poland. But the public health lessons of those efforts left a legacy that persists today. “The story of a community in these conditions,” Fefferman says, “under threat from both man and disease, still coming together to make and adhere to policies to help better their chances of all surviving together is exactly the sort of understanding and hope we need as we continue to shape our local, regional, national, and global response to COVID-19.”


Jewish doctors in Warsaw Ghetto stopped epidemic in its tracks

Jewish doctors in the ghetto, it seems, enforced social distancing and put those infected in quarantine: much like today.


By TAMAR BEERI
JULY 25, 2020


STUBBORN SPIRIT: Standing strong during the Warsaw Ghetto Uprising
(photo credit: Wikimedia Commons)
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Jewish doctors were able to stop the spread of a typhus outbreak in the Warsaw Ghetto during the Holocaust, according to a new report by the scientific journal Live Science.

Typhus initially broke out in the ghetto in 1941 and was expected to spread rapidly through the inhabitants, but rather it died out quite quickly using strict containment measures carried out by the Jewish community of the ghetto.

The study, performed by researchers from Israel, Hong Kong, Amsterdam and Berlin, found that doctors had enforced social distancing, quarantine, and given lectures to educate the captives of the ghetto.

Typhus symptoms in common with the pandemic plaguing the world today: the novel coronavirus. It gives those ill a high fever, chills, coughing and severe muscle pain. Approximately 40% of cases which are left untreated prove to be fatal.

Approximately 120,000 people in the ghetto caught typhus, of which 30,000 died directly from it, according to Medical Xpress.

Models in the new study show that the epidemic, which broke out mid-year, should have reached its peak in the ideal conditions of the fall and winter months, but did not do so - likely due to "anti-epidemic activities in the ghetto," according to Live Science, citing researchers of the study.

The ghetto was the perfect location for an epidemic to spread, as it was massively overcrowded with approximately 400,000 Jews, as well as leaving the inhabitants to starve and the exposure to the elements. All Jewish residents of Warsaw and another several thousand from throughout Germany were relocated to the ghetto and sealed off within it with very few hygeinic supplies to take care of themselves. Dozens of thousands of Jews died due to the conditions, not to mention those who were later sent to concentration camps and death camps.

But the illness did not spread at the speed with which it was expected to do so. The lead author of the study was Prof. Lewi Stone of Tel Aviv University's Faculty of Life Sciences and Royal Melbourne Institute of Technology and Melbourne Technical College in Australia. He claimed that "the Warsaw ghetto had many experienced doctors as inmates."

Jewish doctors in the ghetto, it seems, enforced social distancing and put those infected in quarantine: much like today. However, it was practically much more difficult to do so in the extremely overcrowded ghetto.

The doctors seemingly also taught public lectures on the disease and on proper hygiene care to stop its spread. They even went so far as to train medical students in secret.

Members of the Jewish Council in Warsaw Ghetto (Judenrat), assigned by the Nazis, were permitted to bring extra hygienic supplies in, which may have also helped in part.

It seems that, through these preventative measures, just at the time during the winter when typhus was expected to pick up speed and spread more rapidly through the community, it almost entirely dropped off the grid, as can be seen through the modeling and statistical analysis carried out for the study by Dr. Daihai He of Hong Kong Polytechnic University.

"The actions of individuals in practicing hygiene, social distancing and self-isolating when sick, can make a huge difference within the community to reduce the spread," said co-author of the study, assistant professor Yael Artzy-Randrup of the University of Amsterdam's Institute for Biodiversity and Ecosystem Dynamics.

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