kw: book reviews, nonfiction, history, bacteriology, public health, epidemiology, antibiotic resistance
The title of this review is not quite a quote, but is the conclusion Florence Nightingale drew from her work in Istanbul during the Crimean War in the middle 1850's. The following diagram tells its own tale in the text block; please read it all:
Then pay attention to the blue wedges. Their areas, measured from the center, represent Preventable deaths, deaths of soldiers who died of infections that occurred in the hospital. The modern adjective for "doctor caused" is iatrogenic, and a near-synonym for "hospital sourced" is nosocomial. The appallingly filthy conditions in the hospital at Scutari, and the gore-drenched hands of the doctors going from patient to patient without washing, are summed up in those two adjectives. Thus it was when Florence Nightingale and her team of nurses arrived at the Scutari hospital in November 1854.
The rose diagram (Nightingale called it a "cobweb diagram") on the right shows the horrific toll from seven months before her arrival until five months afterward. Its last two months plus the other rose diagram also show the gradual reduction in overall deaths and particularly preventable deaths as her recommendations, and then demands, were instituted. The risk of dying because one had entered the hospital was reduced, month after month, and was almost eliminated after January 1856.
This and other "cobweb diagrams" proved to most medicos that there was a physical Something that carried contagion from patient to patient in unsanitary conditions, and from doctor to patient on soiled hands. In the 1850's, "germs" were unknown as agents of disease. Also in the mid-1850's, John Snow in England used black dots on street maps to demonstrate a similar fact: that a physical Something had gotten into water and spread disease. One of Dr. Snow's maps motivated the city council to disable a certain contaminated water pump, the famous Broad Street pump.
Facsimiles of that map and the rose diagrams are found in So Very Small: How Humans Discovered the Microcosmos, Defeated Germs—and May Still Lose the War Against Infectious Diseases, by Thomas Levenson. The book is a rather detailed history of the strains of knowledge that led up to the discovery by Dr. Robert Koch that specific microbes cause specific diseases, in the 1880's. This was two centuries after Leeuwenhoek first saw, and drew, and wrote about bacteria he found in scrapings from his teeth.
The author makes much, repeatedly, of the blindness of those with a theory to any evidence that overturns it. Thus "miasmas" were thought to cause diseases during those two centuries, and early-Enlightenment "cancel culture" was waged against anyone who advocated anything different. An abridged quote by Max Planck states, "Science progresses one funeral at a time." My father said it this way, "It's the Moses Method: spend forty years in the wilderness and let them all die out."
The Postulates of Robert Koch were originally developed as criteria for contagion based on studies of anthrax, cholera and tuberculosis. These and many other diseases are caused by bacteria that are visible with a microscope. That is, they are larger than about 1/5th of a micron. The common gut bacterium E. coli, for example, is in the form of rods about 3/4 micron in diameter and 2-3 microns long. Later the Koch Postulates were expanded to other organisms (including fungi) and near-organisms (such as viruses), as technology developed methods of detecting and visualizing them.
The first vaccine was developed in the 1790's by Edward Jenner. The first antibacterial drugs, primarily Salversan and the Sulfa drugs, were developed after 1910, and antibiotics were developed starting in 1929 with Penicillin. We are now about a century into the "age of antibiotics", laid on a foundation of vaccination. Public health measures such as clean (later chlorinated) water and sanitary sewers, followed by vaccinations and antibacterial drugs, have reduced infant and childhood mortality to almost negligible levels in Western countries, such that life expectancy for a newborn is now about 80 years. In a cemetery I visited when researching family history of the 1800's, half the graves were for infants and children under the age of five. Think about that.
The last section of the book deals with antibiotic resistance. Here, the author declares we are at risk of losing the war, after having won so many battles for the past century. He relates the case of a woman, diagnosed with a formerly "easy" microbe, but the strain that has infected her is fully resistant to every antibiotic the hospital has available. The doctor appeals to the CDC, which has twice as many kinds of antibiotic on hand. None of them is effective. The woman dies.
At the moment, our only defense against such "superbugs" is to continue to improve public health measures, and to more fully educate the public about risk mitigation. Alongside this there is a diatribe against the political confusion that surrounded SARS-Cov-2, the agent of the COVID-19 pandemic. The author is fully in the Fauci camp. That is unfortunate, because to my knowledge, Dr. Fauci lied so frequently and so self-contradictorily that a large proportion of "COVID" deaths must instead be attributed to governmental overreach and misapplication of treatment measures. An example is the push to provide millions of ventilators to help patients that developed pneumonia. About half died. The real misinformation was the incredible outcry against the use of Hydroxychloroquine and Ivermectin. The most damaging misinformation was, on the one side, that either of these was antiviral (they aren't), and on the other side, that they were "totally" ineffective.
Both medicines are immune system modulators. Taken early, Hydroxychloroquine tamps down cytokine reactions, reducing or preventing pneumonia. After pneumonia begins, Ivermectin tamps down a different immune reaction, reducing the pneumonia so the body can recover. In any case, the body eventually eliminates the virus on its own, if the patient can be kept alive long enough. Ventilators all too frequently made things worse. OK, enough of that.
Where I truly fault with the author is that he never mentions phage therapy. Bacteriophages, bacterium-destroying viruses, were used before antibiotics were known, and before the viruses themselves had been seen with electron microscopes. They are agent-specific, meaning that a phage that is "tuned" to a certain strain of strep will not affect other bacteria. That is in great contrast to antibiotics that kill off most of a patient's gut microbiota, which requires some time to recover after the patient recovers from the disease. Many doctors I have read claim that more research into phage therapy can make most antibiotics unnecessary, even as they are already obsolete.
To end on a side note (not in the book): The title So Very Small got me thinking. I suspect not many folks really appreciate how small microbes are. This illustration from The Visual Capitalist will help:
Human hair diameter depends on hair color. Blond hair is the thinnest, 50-70 microns, and black hair like that of my Asian wife is the thickest, 150-180 microns. A micron is a 25,000th of an inch. The first thing you could call a microbe in this illustration is the "bacterium", the little blue comma near lower left. The comma shape indicates that the organism is probably the Cholera bacterium. It is the largest item shown that is larger than one micron. Viruses of COVID-19 and of most strains of influenza are about two tenths of a micron in diameter, or about one-tenth the size of the bacterium shown; the illustration shows the virus as much too large. Other viruses of other shapes range widely in size, but are almost all smaller—usually a lot smaller—than one micron. A bacteriophage is shown, appearing 2-4 times as large as it should, compared to the illustration of the bacterium it attacks.
Small things don't always have small effects. In the case of disease-causing bacteria and viruses, they really can have effects bigger than we may know what to do about!
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