I was laughed out of my uni's microbiology department for even mentioning this 15 years ago. While my feelings were somewhat hurt, it wound up working out great for me. That experience led me to neuroscience and a wonderful graduate program, but I couldn't help but chortle a little bit with satisfaction reading this this morning.
In the 80s in order to prove that ulcers were caused by bacteria, a doctor infected himself with said ulcer-causing bacteria and treated himself with antibiotics.
In the 19th century, in order to prove that "dirtyness" causes cholera, a man named Pettenkofer drank a vial of clear water contaminated with cholera. Fortunately he attempted to control the experiment by neutralizing his stomach acids beforehand, which prevented the cholera from becoming pathogenic. The colony passed through his digestive tract without incident.
He neutralised his stomach acids to keep the V. cholerae alive, actually.
They didn't pass through him without incident, every account of this story I can find notes that he did get sick. The modern perspective of the story seems to be that he had an immunity from previously having dealt with cholera.
The story I heard was that Cholera automatically stops reproducing if its population gets high enough, and that keeping the cholera alive prevented it from spreading.
Because it was a pointless blanket statement? Anecdote - One classmate went on to study phage therapy in Europe, another went to work for Intralytix a phage therapy biotech in the US, both PhDs. They were not laughed at by their advisor or their contemporaries for their decisions.
While true, phage therapy was dismissed as propagandized pseudoscience from the Soviet Union since they were the pioneers in the initial research (and the research did appear dodgy TBH). The landscape has changed, but really recently that was not the case and many microbiologists viewed anything phage related as utter nonsense. I am happy to see more research happening.
Note that phage therapy was used and understood in the west well before the Soviet Union came into existence. It fell out of use because of the dangers from poorly purified phage preps, and because antibiotics showed up at about the same time those issues could have been fixed, and are a far more useful general purpose tool.
Do you have some sources for this? Because the Wikipedia article on phage therapy appears to directly contradict you.
Directly after the paragraph about its discovery by an Englishman and a Frenchman:
> A Georgian, George Eliava, was making similar discoveries. He travelled to the Pasteur Institute in Paris where he met d'Hérelle, and in 1923 he founded the Eliava Institute in Tbilisi, Georgia, devoted to the development of phage therapy.
Georgia was part of the USSR at the time. It appears to be the first reference to any actual therapy.
In any case it's a pretty tight schedule from the discovery of bacterophages in 1915/1917 to the formation of the USSR in 1922.
> The first patient was healed of dysentery using phage therapy in August 1919. Many more followed. At the time, none, not even d'Hérelle, knew exactly what a phage was.
Source: Infectious disease epidemiologist who has been interested in phage research for two decades ;)
But you will find on that same Wikipedia page an entry for d'Herelle, and if you follow that...as you note yourself, you get an animal trial in 1919 as well as a human trial. D'Herelle then heads to Indochina to work on Cholera, and he's awarded an honorary doctorate two years after the USSR is founded - along with one of the field's most prestigious medals.
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Is that a tight timeline? Yes. But the idea that "The West" ignored phages because it was some sort of Soviet pseudoscience is contrary to the historical record.
The west abandoned phage therapy because unfiltered endotoxins made phage therapy dangerous, and until the modern era, antibiotics are pretty superior in nearly every respect.
What did happen because of the USSR is the institute in Georgia not abandoning phage research because they continued to have much more limited access to penicillin thanks to the Cold War.
Phage therapy was researched by Félix d'Hérelle, a french-canadian scientist who was awarded the Leeuwenhoek Medal. Eli Lilly and Company were working on commercializing it in the U.S.
The problem was phage therapy couldn't stand up to a disruptive idea: the large scale production of penicillin in the mid-40's.
Indeed. While Flemming himself was concerned about resistance, penicillin is:
1) Much broader spectrum than phage preparations
2) Easier to manufacture in large quantities
3) Safer, because you don't need to filter the prep to remove endotoxins
It's basically a silver bullet - if you don't look too far in the future. It was incredibly disruptive.
Opposite for me - We could pick a three month project in our undergraduate (about 11 years ago), and one of the listed projects aims was to manipulate yeast cells with phages. I did not even consider it at the time because it seemed so far fetched and strange, and the probability of success so small.
Good to see something came out of that line of research.
There is a guy on YT who created and used a crispered phage at some canadian hackerspace biolab. He is no longer lactose intolerant. He can laugh at academia & .gov institutions and their archaic rules and regulations.
Coincidentally we see similar trends in neuroscience as individuals playing with things such as TMS/TCS etc. can't be held back by institutions such as the FDA & academia thus rush beyond them.
TL;DR Be proud to be at the forefront - it's worth so much more than a dinosaur opinion.
I'm pretty sure this is the video that describes the whole process, in case you want to hear more about it. (Haven't watched it myself but it's been on my to-watch list for while) Comes from a YouTube channel called Though Emporium:
https://www.youtube.com/watch?v=J3FcbFqSoQY
There are very real challenges to the mass application of phage therapy. I love it, have for several decades, and am especially excited about the potential based on some new findings for it to work in combination with antibiotics, but from a practical perspective, it's difficult.
