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  • {♫Intro♫}

  • If you're coughing, sneezing, or starting to feel under the weather, you might blame

  • a virus, or possibly a bacterium.

  • Which is not something humans have known to do for very long.

  • Around 400 B.C.E., doctors might have blamed an imbalance of the four vital humors for

  • your illness.

  • Around the 1700s, they might have pointed to an invisible, disease-carrying fog instead.

  • Today, we know pathogens -- viruses, bacteria, and certain other microbes -- are responsible

  • for many diseases.

  • But linking specific diseases to the microbes that cause them has been surprisingly tricky.

  • In 1882, a scientist named Robert Koch demonstrated that the bacterium Mycobacterium tuberculosis

  • causes tuberculosis.

  • And in 1890, he also published a framework for future scientists to make similar discoveries.

  • He created a checklist for researchers to reference any time they're trying to link

  • a pathogen to a disease.

  • The steps are as follows.

  • First, researchers had to be able to find the pathogen in sick organisms, but not healthy

  • ones.

  • Second, it could be grown in pure culture -- which means that a sample of the microbe

  • could be taken from a sick organism, and then the microbe could grow independently in a

  • 19th century version of the petri dish.

  • Third, if they exposed a healthy organism to the stuff that they grew in step two, that

  • organism would get sick with the same disease.

  • Finally, though this step is sometimes considered optional, the same microbe that was isolated

  • in step one must be found again in the organism made sick in step three.

  • These steps are now known as Koch's Postulates.

  • The idea is that if the microbe meets all of the postulates, then you know it's the

  • cause of the disease.

  • Unfortunately, his postulates had a few problems.

  • Take postulate one.

  • Tuberculosis can actually be found in healthy individuals -- that's called latent tuberculosis

  • -- so it doesn't meet Koch's first postulate.

  • This situation just didn't show up in his experiments, which were done in guinea pigs.

  • Postulate three isn't perfect either.

  • Assuming that any healthy organism exposed to a pathogen will get sick ignores differences

  • in immune systems.

  • A healthy organism might be able to fight off the infection or might already be immune

  • to the disease.

  • But it was the second postulate that caused the most confusion.

  • Something grown inpure culturehas to be the only living thing in the dish, and

  • many pathogens just can't grow independently like that.

  • Viruses, for example, reproduce by hijacking molecular machinery in the cells of the organism

  • they're infecting.

  • Meaning you can't grow them in a dish by themselves.

  • But bacteria often grow in a dish just fine.

  • Because postulate two required the thing to grow in culture, researchers at the turn of

  • the twentieth century would almost exclusively blame bacteria for the diseases they were

  • studying, which resulted in some false accusations.

  • Malaria, which is actually caused by blood-infecting parasites, was blamed on a bacterium from

  • Italian marshes in the 1880s, which they named Bacillus malariae.

  • Canine distemper, a sometimes deadly disease in dogs that causes symptoms like fever and

  • vomiting, was linked to a series of different bacteria before it was finally proven to be

  • a virus in the 1920s.

  • And the familiar virus influenza, or the flu, was misidentified as a bacterium in eighteen

  • ninety-two, by a colleague of Koch's.

  • The bacterium came to be known as Haemophilus influenzae.

  • To study the flu, researchers needed samples of spit and snot from people with obvious

  • symptoms.

  • But one thing that made influenza hard to study was that, even though the flu usually

  • reaches a peak in winter, the only time that scientists could reliably find large numbers

  • of flu-ridden folks at the same time was during a pandemic.

  • And those could be decades apart.

  • So the first chance scientists had to check the results from 1892 was during the next

  • influenza pandemicin 1918.

  • Researchers were unable to replicate those initial results.

  • But it wasn't clear at the time if it was because of poorly controlled studies in the

  • chaos of one of the worst pandemics in recent history and the end of World War I, or if

  • they were just... wrong.

  • A vaccine was developed in New York based on Haemophilus, just in case.

  • There was at least one study around that time that managed to find evidence of the right

  • answer: influenza is a virus.

  • It took until 1933 and another influenza pandemic for scientists to prove without a doubt that

  • the flu is caused by a virus, thanks to the introduction of ferrets as a model organism.

  • Ferrets were the only small mammals they could find that actually get the flu and show symptoms

  • similar to ours.

  • So it seems like Koch's Postulates, especially the second, really hindered research into

  • any disease that didn't have a bacterium behind it.

  • Does that mean they're useless?

  • Not at all.

  • Since the 1880s, scientists have tweaked Koch's postulates over time to match modern understandings

  • of pathogens.

  • Today, the focus isn't just on microbes, but on their genes.

  • Using genetic sequencing, scientists can gather information about all of the nucleic acids

  • in a sample, whether DNA or RNA, and then use a modified version of Koch's postulates

  • to figure out which genes are most associated with disease symptoms.

  • For example, in 1996 scientists at Stanford came up with a new set of postulates with

  • seven gene-centric points.

  • By using gene sequencing, scientists can find pathogens that haven't been isolated and

  • identified before.

  • And there's no need to culture them.

  • Koch's postulates provided a solid foundation for researchers to begin linking diseases

  • to their sources.

  • Sure, there were a few mistakes, but they provided a rigorous, testable basis for understanding

  • disease.

  • Even if we had to come along and make some changes later.

  • And even if some ferrets had to get the sniffles.

  • Thanks for watching this episode of SciShow, and thanks to our supporters on Patreon for

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  • {♫Outro♫}

{♫Intro♫}

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