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Richard Friedrich Johannes Pfeiffer FRS [1] (27 March 1858 – 15 September 1945) was a German physician and bacteriologist. Pfeiffer was born to Otto Pfeiffer, a German pastor of the local Evangelical parish, and Natalia née Jüttner, in Treustädt, Province of Posen ( Prussia ), and died in Bad Landeck ( Prussia, now Poland ).
- Endotoxins discovery
Oct 8, 2019 · October 7, 2019 / 7:47 PM CDT / CBS Chicago. CHICAGO (CBS) -- Richard Pfeiffer, a Chicago LGBTQ community leader who had served as the coordinator of the Chicago Pride Parade for decades, died ...
Pfeiffer, Richard Friedrich Johannes (1858-1945) German physician Richard Pfeiffer conducted fundamental research on many aspects of bacteriology, most notably bacteriolysis ("Pfeiffer's phenomenon"), which is the destruction of bacteria by dissolution, usually following the introduction of sera, specific antibodies, or hypotonic solutions into host animals.
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- Overview
- ‘Not quite sure what we know’
- Finding the real flu virus
- Casting a long shadow
- An historic coronavirus, too?
A misunderstanding about the microbe that actually causes the flu created a ripple effect that changed the future of U.S. drug development, clinical trials, and pandemic preparedness.
A woman wears an unusual type of mask to guard against the flu during the 1918 pandemic. At the time, no one knew that influenza was caused by a virus, and "flu" was a catchall term for a suite of infectious respiratory symptoms. But one German researcher thought he had cracked the case when he pegged the disease to a new bacterium in 1893, and his mistake turned out to be momentous.
In 1892 a prominent German bacteriologist named Richard Pfeiffer made a mistake—one that would have an enormous impact on the pandemic of 1918 and the next century of medicine.
In the late 19th century scientists had begun to draw connections between microorganisms and human illnesses. But no one had convincingly linked a specific pathogen to influenza, which back then was essentially a catchall term for a suite of infectious respiratory symptoms that had swept through populations for millennia.
To solve the mystery, Pfeiffer was examining sputum from 31 patients who had died in the flu pandemic of 1889-90, which killed about a million people worldwide. That’s when he discovered a new type of bacterium. “The influenza bacilli appear as tiny little rodlets,” he reported in the British Medical Journal in January 1892, and he found them exclusively in pandemic victims. “In view of these results, I consider myself justified in pronouncing the bacilli just described to be the exciting causes of influenza.”
He named the bacterium Bacillus influenzae, but it quickly became known known as Pfeiffer’s bacillus. After all, Pfeiffer was chief of the Scientific Section of the Berlin Institute for Infectious Diseases and a protégé of Robert Koch, a microbiology pioneer. His stature was such that people readily believed him. This was still the case 26 years later, in 1918, when people began dying at alarming rates from an infectious respiratory disease.
Though the disease is erroneously called the Spanish flu, it first appeared at a U.S. Army base in Kansas, where more than 56,000 soldiers were destined for the trenches of World War I. The pathogen quickly spread to other Army camps, and hundreds of thousands of infected soldiers were subsequently shipped across the Atlantic Ocean. By that summer terrible outbreaks were happening around the world.
In September 1918 then-U.S. Surgeon General Rupert Blue issued guidelines for physicians dealing with the pandemic titled: “Infectious agent—the bacillus of Pfeiffer.” That prompted another misstep: Teams across the nation begin concocting vaccines based on the bacterium.
Yet in October 1918 alone, more than 200,000 people in the U.S. died from the mysterious new flu, including scores of vaccine recipients.
To figure out why vaccines were failing to prevent deaths, physicians and pathologists collected samples from the lungs of the living and the dead and analyzed them in their labs. They found teeming colonies of Streptococcus, Pneumococcus, and Staphylococcus aureus bacteria—but much less of Pfeiffer’s bacillus. Confoundingly, they also found Pfeiffer’s bacillus in many healthy people.
The Public Health Service and the U.S. Navy conducted more audacious experiments on enlisted volunteers in late 1918. The researchers first sprayed a pure culture of Pfeiffer’s bacillus into volunteers’ noses. When none of them got sick, “we became bolder,” prominent public health official Milton Rosenau recounted in an August 1919 publication.
The team had volunteers and influenza patients come together “muzzle to muzzle,” and the ill patients exhaled into the open mouths of the volunteers. Then they coughed in the volunteers’ faces five times. “I may say that the volunteers were perfectly splendid about carrying out the technic of these experiments,” Rosenau noted. “They were inspired with the thought that they might help others.” The researchers also sprayed a filtered solution made from 13 strains of Pfeiffer’s bacillus into the volunteers’ throats and eyes, and later injected the volunteers with blood from flu patients.
Some teams insisted that Pfeiffer’s bacillus vaccines were effective—physicians in New Orleans, for example, claimed theirs prevented 90 percent of flu infections. For others, the bacterium had fallen further out of favor. By the time a third wave of the pandemic hit in early 1919, vaccines containing a mixture of dead bacteria were more common than ones purely focused on Pfeiffer’s bacillus. These treatments didn’t help with the flu, but they seem to have reduced overall fatalities by preventing bacterial pneumonia, a common secondary infection during the pandemic.
For a worried public, confusion reigned about what really caused the flu.
In March 1919 the Kansas City Kansan spoke to Noble P. Sherwood, head of the University of Kansas’s bacteriology department, about reports that his team had identified the actual flu germ. He denied it. “The ‘flu’,” the newspaper snarked, “has the scientific world up in a tree, out on a limb, in deep water, gagged, bound hand and foot, yet waving both hands and waving wildly for help.” (Find out what lessons we can learn from the history of 1918 flu fatigue.)
Flu deaths finally returned to pre-pandemic levels in 1921, and for the next nine years scientists tried—and failed—to definitively rule out Pfeiffer’s bacillus as the causative agent, in part because seasonal flu continued to ravage communities who had no effective treatments. Even a 500-page global review of all pandemic-related scientific papers could only conclude that “it cannot be legitimately deduced that the Pfeiffer bacillus … either is the cause or not the cause of influenza,” as bacteriologist Edwin Jordan wrote in 1927.
Things finally turned around in 1930, when virologist Richard Shope isolated the first known flu virus in sick pigs in Iowa. Inspired by Shope, scientists in the U.K. swabbed the throats of flu-stricken people and injected a filtered fluid into ferrets. The animals promptly fell ill. The team also swabbed Pfeiffer’s bacillus into the animals’ noses, and it had no effect.
“We consider that the evidence given above strongly suggests that there is a virus element in epidemic influenza,” the English researchers wrote in 1933.
Despite the chaos it caused in 1918—or arguably because of it—Pfeiffer’s bacillus had a lasting effect on medicine and microbiology.
Then as now, researchers trying to control the pandemic were publishing their findings about causes and treatments at a frantic pace. But in 1918 it was much harder to compare results, let alone understand the big picture. The public health community at the time had no standardized methods of research or testing, virtually no peer review, and no common protocols for clinical trials. Some of the vaccine trials for the 1918 flu were conducted on vulnerable populations, including mentally ill patients, orphans, and prisoners.
In response, the American Public Health Association issued the nation’s first guidelines for conducting vaccine trials in January 1919. The guide included some of the most foundational practices used today, such as having a control group—a set of participants who don’t get the experimental treatment and so serve as a baseline—and matching participants in the control and experimental groups by gender, age, and prior exposure.
In 1928 “a very bad year of seasonal influenza got Congress worried,” so they created the National Institutes of Health, says historian John Barry, author of The Great Influenza. “Had 1918 not sensitized them, it wouldn’t have happened.”
Similarly spurred by the missteps of the 1918 pandemic, the World Health Organization established a network of 26 laboratories around the world called the Global Influenza Surveillance and Response System in 1952. Taubenberger says scientists were thus better prepared when the H2N2 pandemic hit in 1957. They were ready with antibiotics to treat the secondary infections that had been so devastating in 1918, and they could quickly create effective vaccines for the specific strain.
Also, one upside of chasing down Pfeiffer’s bacillus—also known as Haemophilus influenzae, or H. flu—was that researchers learned more about it. In 1929 a young bacteriologist named Margaret Pittman studied more than 500 mucus samples from Rockefeller Hospital patients. She was trying to definitively establish or completely sever the link between the bacterium and the flu, and she didn’t do either. But she did discover six encapsulated strains of H. flu. Humans are H. flu’s only host, and some strains live harmlessly in our noses and throats. But one strain, now known as Hib, is especially pathogenic.
Recently scientists have found hints that Pfeiffer’s mistake may not have been the only error associated with the 1889 pandemic. If they’re right, the discovery could have implications for the COVID-19 pandemic.
In a 2005 paper Belgian researcher Leen Vijgen traced the most common ancestor of a bovine coronavirus and the human coronavirus CO43 to around 1890, when it seems to have leapt from cows to people. Other scientists have since argued that the disease seen in 1889 shares similar symptoms to those of COVID-19, including the loss of taste and smell, seizures, and long recovery periods.
Perhaps, they say, the 1889 pandemic was not caused by a flu virus at all, but by the CO43 coronavirus. Teasing out the truth may offer a window into the future of SARS-CoV-2; for one, the strain of CO43 circulating today causes only mild symptoms.
Taubenberger and his NIAID colleague David Morens have also set their sights on the 1889 pandemic. They’re seeking tissue samples from the period, which have so far proven elusive.
“It’s very, very hard to find autopsy samples from before 1918,” Taubenberger says. “We have been working very hard with other collaborators around the world to find such cases, and we’ve been analyzing autopsy cases going back to about 1907 or so. No one is aware of any tissues from the 1890s. But that's not to say they don’t exist somewhere.”
Taubenberger adds that it’s a modern mistake to think the researchers working during past pandemics were missing the obvious: Despite having vastly better technology and improved understanding of how viruses cause disease, we’re still in the dark about some aspects of COVID-19, including its origins, its long-term impacts on the body, and its ultimate evolutionary trajectory. Today’s scientists have also had to navigate conflicting data about how COVID-19 spreads and how best to control it.
Jul 6, 2023 · Haemophilus influenzae was also known as Pfeiffer’s bacillus, for Richard Pfeiffer, a researcher at the Robert Koch Institute, who had identified it as the cause of an 1889–1890 influenza pandemic. Pfeiffer’s indictment of this bacillus went largely unquestioned for a quarter century, until the bodies started to pile up in 1918.
Nov 13, 2018 · In 1892, the year “Russian flu” swept through Europe, German bacteriologist Richard Pfeiffer announced he had isolated the bacterium responsible for the flu—Haemophilus influenzae. Pfeiffer’s bacillus turned up in the lung tissue of many flu victims, but it did not appear in all of them.
Oct 7, 2019 · CHICAGO (WLS) -- A Chicago gay rights leader, who coordinated the city's Pride Parade for 45 years, has died. He was 70. Richard William Pfeiffer died Sunday, according to Tim Frye, his husband of ...
