Crazy Ways People Have Tried to Use Radiation
10
November

By Adem Lewis / in , , , , , , , , , , , , , , , , , , , /


Today it seems like common sense not to put
radioactive materials in your mouth. And, really, it should have seemed that way
a hundred years ago, too. People had been noticing very, very bad effects
from high levels of ionizing radiation for decades. But in some circles, word traveled slowly–or
was hushed up altogether. In the late 1800s, scientists and the general
public became dazzled by advances in chemistry and physics. Not only could the right combination of chemicals
create a really big explosion, but also, by combining the new techniques in the application
of electricity and the ability to make a partial vacuum, you could create a more subtle glow,
when some mysterious form of energy dubbed “cathode rays” banged into the glass end of
the tube opposite the positive electrical pole, or cathode. Whatever it was made of, it was going fast
enough to miss the anode. In 1895, German physicist Wilhelm Röntgen
was working with one of these electric vacuum tubes. He happened to have a chemical called barium
platinocyanide near the tube, and these crystals started glowing. And they kept glowing, even if you put an
opaque object, like a piece of wood, between the tube and the chemical. So this kind of energy was in some ways like
ordinary light rays, but not quite the same. He called the phenomenon X-rays. The “X” designated something unknown, but
the name stuck. Soon Röntgen was demonstrating that a photographic
plate could record shadows from X-rays, indicating variable amounts of transmission through different
substances, in particular the soft tissues and bones of the hand. Almost immediately the medical community recognized
the value of X-rays as a diagnostic tool. Hospitals set up the precursors to radiology
departments, both for imaging, and for the treatment of tumors with X-rays. The Queen of Portugal had her ladies in waiting
X-rayed to demonstrate the harmful effects of corsets on the skeleton. But almost as soon as X-rays started showing
their promise for healing, they also revealed their more troubling side effects. Technicians who worked with X-rays began to
experience burning of the skin. Often an X-ray machine operator would use
his own hand for a test image. Within a few years, cancer developed, first
in one or more of the fingers, which would be amputated. But if the effective dosage of radiation was
highest in the extremities right in the line of fire, the rest of the body wasn’t coming
away unscathed, and further amputations would follow. But whether due to initial exposure, or the
spread of cancer, the conclusion of the process was an early death for a number of the medical
pioneers. A variation of the X-ray imaging was the fluoroscope,
developed at Thomas Edison’s lab. In this device, the X-ray image was created
on a luminous screen rather than a photograph. Fluoroscopes proved practical as field instruments
for army doctors in times of war, since it enabled instant examination of a patient for
such tasks as locating a piece of shrapnel. But Edison’s own assistant was one of the
first casualties of overexposure to X-rays, and the celebrity inventor became an early
advocate of caution in the use of radiation. Not everyone was listening. Starting around 1920, several people seem
to have more or less simultaneously hit upon the idea that a fluoroscope could help with
shoe fitting. In principle, seeing your foot inside a pair
of shoes could tell you if it was helping your bones stay in proper alignment, or pushing
them into an awkward angle. Well into the 1950s, fluoroscopes became a
mainstay of shoe stores, despite eventual skepticism on the part of sales clerks that
they were worth the enormous expense. People were just fascinated to see the bones
of their feet. It was a novelty. In time, research would indicate that the
machines were frequently blasting many times the recommended dose of radiation. In the U.S., the machines were eventually
banned. In Britain, where for some reason an outright
ban never happened, at least a few shoe store fluoroscopes remained in use throughout the
1960s. A similar journey from wonder to fascination
to terror attended the other early star of the science of radiation, the element radium. Working in Paris, Marie and Pierre Curie discovered
radium as a kind of trace contaminant within the more common element uranium. A colleague, Henri Becquerel, observed that
without any external energy, uranium emitted some type of rays. Marie Curie hypothesized that the emission
was the result of internal changes within individual atoms of uranium, and called the
process radioactivity. Surprisingly, unprocessed uranium ore, called
pitchblende or uraninite, was more radioactive than refined uranium. This led the Curies to suspect the waste material
contained another element. Further refining the uraninite slag produced
a tiny amount of this other substance, which they named polonium. Finally, by processing the material leftover
after the uranium and polonium had been extracted, yet another, even more radioactive chemical
emerged, a compound containing a new element, which they named radium. The Curies received acclaim for their discoveries,
becoming a celebrity couple, admired both by scientists and the public, and sharing
a Nobel Prize with Becquerel in 1903. In turn, the Curies were fascinated by radium,
with its radioactive strength imbuing it with strange powers. Not only could the radium make ordinary metal
salts glow; its ability to penetrate and burn tissue suggested that, like X-rays, it might
help treat cancer. The elaborate process of extracting radium
required lots of hands-on work, but Marie at first was unbothered by the burns they
were experiencing. The work left them feeling fatigued, though–a
result of radiation poisoning, a nonexistent diagnosis in the 1890s. And the turn of the 20th century found a public
enthusiastic about the recent advances in science. Glowing radium was a symbol for a new, modern
age that saw electricity, powered vehicles, moving images, and other seemingly magical
effects entering wide use one after the other. A Broadway musical featured a dance number
about radium, which was becoming a buzzword alongside other, more established precious
metals like gold. But Pierre Curie, who eventually developed
severe and long-lasting burns from contact with radium, noted that he wouldn’t even want
to be in the same room as a kilogram of radium: he suggested it would burn all the skin off
his body. Exposure to that quantity wasn’t a possibility,
but in minute amounts radium would soon make its way into the marketplace. Asking if radiation is dangerous is kind of
like asking if animals are dangerous: it depends on how close you get, and which animal you’re
talking about. Uranium and radium were found to give off
different types of radiation, with different properties. Alpha radiation tends not to penetrate solid
objects too deeply. Beta radiation, on the other hand, bores right
through opaque material, as does gamma radiation. Beta rays turn out to be ordinary electrons. Just being around a strong enough source of
beta rays can be bad news. Gamma rays, like X-rays, are photons, the
same stuff light is made of, only with a much higher frequency than visible light, not only
letting them pass through many solid objects, but also potentially to mess with the molecules
they bump into. So, prolonged or repeated exposure to gamma
rays can also damage the body. Alpha rays are flying streams of helium atoms–without
their electrons–making alpha particles much, much more massive than beta, if more limited
in their mobility. But if you ingest something that emits alpha
rays, the rays don’t have to travel far to start boring holes in your body from the inside. Unfortunately, in the early 20th century,
people began to experience that effect. Very early on, some researchers were very
optimistic about the healing powers of radium. In addition to its demonstrated power to kill
cancerous tissue, the purported medical benefits of radium were said to include relief from
arthritis and rheumatism, allergies, digestive disorders, diabetes, and waning sexual power. This honeymoon was short-lived, and by the
1910s the medical community was also gathering evidence that radium, far from being a health
tonic, was very bad for you. But in the meantime, an industry of quack
supplements and nostrums was growing, basking in the shine of radium’s novelty. Some merely used the word radium, or something
similar-sounding, like the fictitious substance irium, in their names. But plenty of actual radium, uranium, and
thorium–another radioactive element–made their way into American and European medicine
cabinets. And the trend lasted well into the 1940s. At first there was a certain kind of misguided
logic to the merchandise. Since ancient times people have gone to hot
springs and naturally occurring mineral baths, in part because of the alleged health benefits
of the substances found there. Radon, yet another radioactive element discovered
as a daughter element of decaying radium, turned out to be the special sauce at these
retreats. Spas began bottling radon water as a way to
expand their market. But unlike radium, which in a common form
keeps a consistent radioactive decay for centuries, radon, which occurs as a gas, breaks down
in a matter of days into a series of other radioactive elements. Again, applying the twisted logic that radon,
perhaps because of its first generation relationship to radium, was the stuff you really wanted
in your water, manufacturers rose to the challenge of bottling that lightning with two solutions. One idea, as ingenious as it was misguided,
was to create ceramic water jugs with the radium baked in. The most famous brand name was Revigator,
but it had no shortage of competitors for the radioactive water market. Advertisements for the product show pseudoscience
collapsing in on itself, claiming that ordinary drinking water frequently lacked the vital
something-or-other that, presumably, treatment with radioactive chemicals could replace. The first part of the claim is clearly nonsense,
but they were honest about the water turning radioactive. Left in the attractive looking decanters,
water would in fact come to carry a suspension of radon, as well as the products of radon’s
decay. A convenient alternative was to place a radioactive
cone inside an ordinary jar, for much the same purported benefit. A more aggressive, and potentially much more
expensive approach, simply sprinkled radioactive material straight into water. The potions came in bottles resembling medicine,
although a selling point of radioactive remedies was that they were natural elements, unlike
the artificial chemicals of actual pharmaceuticals. Radithor, which boasted not only radium, but
also some thorium for good measure, was one of the leading brands in this market. As it turned out, Radithor would also feature
prominently in the demise of these dangerous sport drinks, in the tragic and public case
of one zealous influencer, Eben Byers. A wealthy and athletic resident of Pittsburg,
Byers began drinking Radithor after suffering a broken arm getting off a train. Impressed by the concoction, he recommended
it to his friends, gave it to his racehorses, and consumed about three bottles per day. This habit didn’t end well. When Byers died in 1932, his symptoms, including
the loss of teeth and his jaw, mirrored those of other acute radium poisoning cases that
were developing. Products touted as containing radioactive
ingredients include some that are almost unbelievable. During World War II, a German manufacturer
added thorium to its Doramad brand of toothpaste. Another German company patented a chocolate
bar prepared with radium. Near the mine that supplied the world with
radium in the modern day Czech Republic, at least one bakery traded on the radioactive
water they used to make their bread. Around 1910, the New York State-based Radium
Compound Company stated, on the label of its Radium Hand Cleaner, that the multipurpose
product “takes off everything but the skin.” On both sides of the Atlantic, cosmetic companies
offered lines of radioactive make-up, with ads showing what was meant to be a healthy
glow. Arguably, the lighting effect on the illustration
of an impassive model for the French company Tho-Radia has a tinge of the early horror
movie poster. Some brand extensions almost defy belief. Some companies offered uranium-laced blankets,
while others pretty much just gave you a sack of radioactive material. NUTEX Radium Condoms, available from the late
1920s through the 1940s, ran into trouble at least once with U.S. regulators, for making
false claims about disease prevention. The claimants, apparently, were complaining
about overall quality, however–not whether or not they actually contained radium as promised. Accounts differ on that matter. But the principle of radium for vigor, sexual
and otherwise, shows up in products that are unequivocal in their application. The Radium Remedies Corporation of Pittsburg
offered a complete line of products that claimed to treat all manner of ailments. Convenient Radio-X tablets would help your
body detox, somehow, and also kill microbes. There were in-soles, pads, and ointments,
as well as suppositories. This last, which they describe as “A Modern
Remedy — Not a Drug,” were for the relief of “Hemorrhoids (Piles), Ovarian Troubles,
and Female Weakness.” On the other hand, Vita Radium Suppositories,
a product that the Journal of the American Medical Association aptly described as a “nauseatingly
filthy piece of quackery,” were marketed with the call “Weak Discouraged Men! Now Bubble Over with Joyous Vitality Through
the Use of Glands and Radium.” The U.S. Postal Service shut this line down
for fraud in 1931. On a similar note, the Radiendocrinator was
a small, gold-colored box containing radium, which the user placed in his athletic supporter. This existed. But the case that best illustrates the tragic
gap between the hype of radium and the growing scientific certainty about its dangers is
the story of the Radium Girls. In an account of the crisis, The Radium Girls:
The Dark Story of America’s Shining Women, author Kate Moore describes what was at first
a dream job for many young women in New Jersey just before the start of World War I. The United States Radium Corporation paid
incredibly well, offered a challenging job, and camaraderie in an enjoyable, even glamorous
workplace. The only downside was, they killed you, painfully. The co-founder of the company, Sabin Arnold
von Sochocky, learned of a formula for radium-based glowing paint, with the alluring trade name
“Undark,” and developed one of its key applications, the painting of clock and watch dials. At first a novel convenience, radium watch
dials became an important part of U.S. soldiers’ kits in World War I, and the company grew
to hundreds of employees. There was a gender-based division of labor,
with men working working to refine the radium, and women–many actually were girls in their
teens–painting the clock faces. Painting the often tiny numerals required
precision, and even with very narrow camel hair brushes, the individual hairs would spread
too wide if they weren’t continually squeezed back into a fine tip. The girls were trained to do this by putting
the brush tips in their mouth, letting their lips form the proper shape. Workers had misgivings. Some were put off by the taste, although others
apparently liked it. But their floor manager always allayed their
fears, and Sochocky himself explained that the small quantities of radium were quite
innocuous. The key there being the quantity: the company’s
own policies show that they knew radium to be dangerous. The men extracting radium in the adjoining
facility wore lead aprons and used tongs to handle tubes of radium. Nevertheless, both he and his co-founder,
George Willis, took a cavalier attitude and carried radium around without the safety equipment. Sochocky would later die of the same disease
as his employees. Demand for glowing clock faces didn’t flag
after the war, and so the workforce at USRC stayed robust. Another major manufacturer, the Radium Dial
Company, started in Chicago, and, flourishing, moved to a larger facility in the town of
Ottawa, Illinois. For some reason, this company took a different
attitude toward the radium paint than their East Coast rival. Whereas USRC treated the paint as precious,
reclaiming as much of the dust from the work stations and even the clothing of the workers
as possible, the Radium Dial Company encouraged the young women to have fun with it. They applied it as make-up, creating a luminous
look for evenings out. In fact, their colleagues in New Jersey did
much the same–they just had to be a little less obvious about it. People seeing the girls leaving after their
shift compared the glowing figures to ghosts in the night. They’d wear their nice clothes to work to
impart an enchanting sheen. The first worker died in 1922. It happened quickly. First, Mollie Maggia’s teeth began falling
out. The gaping holes left by the lost teeth became
infected, and wouldn’t heal, a source of constant agony. Without the use of instruments, her dentist
broke and removed her brittle lower jaw. After months of suffering, at last her jugular
burst, and the 24-year-old Maggia quickly bled to death. In short order, coworkers followed her to
the grave. One woman developed a tumor the size of a
softball below her jaw. Others developed tumors on the pelvis or leg. Ingesting a steady course of radium destroys
your bones. The body mistakes it for calcium. Once a trace of radium gets lodged in the
bone tissue, it begins emitting rays from inside the body, destroying bone, growing
tumors, and impeding the production of blood cells. Two hundred or more women worked at the New
Jersey dial factory during much of its peak production, and there were several other facilities
around the country with similar practices. A long tenure at one of these plants was often
a death sentence. Grace Fryer, one of the radium girls afflicted
with radium poisoning, along with four of her poisoned coworkers, successfully sued
USRC. They five received a settlement of $10,000
each, plus coverage of all medical expenses, and an annual payment of $600 for the rest
of their lives. Those lives would be very short. At least fifty radium dial painters were were
killed by 1927; others were still alive, but already had cancer by then–not a final tally,
since cancer can take years to develop. By 1929, 23 more workers had died of conditions
caused by radium other than cancer. Official records of the time listed 1,600
dial painters, but one estimate puts the total number of painters exposed at 4,000. The eventual death toll is unknown, although
studies did track survivors until the 1990s. At least two dial painters from the early
era survived into the 2010s, although in one case the survivor was only employed at a dial
factory for a few days. The other had refused to tip her brush with
her lips. The Radium Girls represented the first widespread
phenomenon of death from radiation exposure. As the author Moore notes, both the legal
precedent and the medical data would guide decision making, both in workplace safety,
and the use of radioactive materials. The twentieth century would have plenty of
opportunity to put the new standards to use. By the end of World War II, radium was phased
out in clock painting, in favor of tritium and other less dangerous radioactive substances. A disturbing postscript: Inexplicably, consumer
products containing radium, sometimes as a solid state deodorizer, continued manufacture,
notably in Japan. A thorium water infuser was sold in Japan
as late as 2005. Some clock hands painted with radium were
available for sale to clockmakers into the 1990s. And despite everything, right now, the Austrian
spa town of Bad Gastein has an unsettling attraction. Spa proprietors invite visitors to relax in
a hot cave. There you can supposedly receive health benefits
by breathing in air rich with radon. They say it helps with arthritis, asthma,
and other persistent conditions. You’re always exposed to some radiation, from
the soil, from outer space, and so on. In an article published on the health and
science site Mosaic, Christoph Köstinger, the director of the facility, and a physicist,
offers an estimate of your exposure at the site: about nine months dose over the course
of a three-week stay at Bad Gastein. That translates into 13 times the typical
background amount. Unlike, say, a chunk of uranium under glass,
radon isn’t just something you’re exposed to and walk away from. Radon is something you ingest. Inhaling radon is considered the second leading
cause of lung cancer in the U.S. The element isn’t any better for you in Austria. But people who want to voluntarily expose
themselves to high doses of the carcinogen can also do so at a spa in Montana, or at
a resort in the Czech Republic, near the mines that supplied the Curies with their radium. Are there any everyday products in the present
day that you think would be better off getting rid of? Let us know what you think in the comments. Also, be sure to check out our other video
called “What Is The Deadliest Substance On Earth? Toxicity Comparison.” Thanks for watching, and, as always, don’t
forget to like, share, and subscribe. See you next time!


100 thoughts on “Crazy Ways People Have Tried to Use Radiation

  1. I think the way we laugh at the ignorance of people who consumed radioactive things, future generations will laugh at us for surrounding ourselves with toxic plastic.

  2. It was nice of you to put some video in with the ads….😒 How many freaking ads do you need!😠 Quit watching after 6 minutes and 3 ad breaks!

  3. Remember in the time of the Romans nobleman and high society use to add lead to their wine because they believed it improved the flavor. Little did they know that lead causes brain damage at the time today lead isn't used much outside of bullets batteries and radiation shielding.

  4. “Don’t use chemicals, use this all-natural…”
    “Detox…”

    This sounds somehow familiar. Quackery is the same all over.

  5. The "Family Shoe Store" in Port Angeles, WA has a working shoe x-ray machine. They don't use it, but historically, such machines were used to view how much room was left for growth in children's shoes. There were two ports. One for the child to see into and one for the shoe salesman or parent to view through.

  6. fear mongering of nuclear power?, no not all,… dude, these people are real, so if you want to talk about nuclear power, why don;t you become the victim of first, and then talk how great it is…. I wonder if even with all these evidences you still don't learn how much stupidity people willing to go just to sell something…

  7. Infographics 2100: People in 2019 thought vaping was harmless due to the lower quantity of carcinogens compared to cigarettes and began ingesting it as flavors such as bubblegum… They all died of lung cancer soon after

  8. Sheeple laughing about how dumb people were back than when it comes to the largely unknown effects at the time of radiation probably utilize cellphones and wifi networks constantly in the modern day and cant see the parallels….. But hey, the more things change the more they stay the same…

  9. Wilheln called "X-rays" Röntgen from his last name in turkish, german and other countries use Röntgen execpt x ray

  10. you also used to be able to buy science kits for kids that included radioactive material. As well as you consume radiation on a daily basis. The level of which varies from water sources, liquid sources or food sources, for example :

    Bananas, lima beans, carrots, peanuts, – contain various levels of Radon

    (not the only natural foods that contain Radon, just some of the highest amounts in these)
    With bananas at the highest – Bananas can potentially set off a Geiger counter.

    most of these above also contain Potassium which is radioactive,

    Water, and most consumed liquids contain traces of Potassium, radon, and other radioactive materials.

    You are constantly bombarded by low-level radiation. Even potentially some of the radiation from nuclear bomb tests in the last century.

    funny note however – You can 100% safely hold most forms of Uranium, and not get any burns, or radiation poisoning, it generally takes ingesting small particles of it, like the video shows on Radon.

    honorable mention : You emit radiation, so do I so does everything on this planet. I'll just chalk that up to all your GLOWING PERSONALITIES 🙂

  11. They sell you phones TVs watches laptops and may other things now a days that still give off radiation we’re all fools

  12. This world is soooo boring I wanna see fairytale shih I want to see mutation animals and much more life needs to be interested

  13. Funny enough there are still some radioactive lenses going around that can be adapted to modern cameras or used with film ones, people say the radiation isnt strong enough, but i would rather be safe then sorry

  14. I pay a lot for my phone and internet I can't believe I still have to watch ads this is why the world is turning away from companies and big tech

  15. Does it make you wonder how many things we use today are just like this, such as the long term effect of sitting next to a wifi router

  16. Happy radiologic technologist week and xray discovery (11/8/1895) to all fellow radiologic technologist and radiologist

  17. Curiosity killed the cat but it also gave future cats plenty of clues on what they have to avoid in the future… 🤔

  18. It all makes sense now. No wonder comic books(which became a thing in the 20st century) always talks about how their characters gain superpowers from exposure to radiation.

  19. Cool video and also informative, but the background music was constant and irritating. Had to dislike just for this reason.

  20. Is there any need for the amount of ads on the infographics channel? The content is amazing but its becoming unbearable to watch.

  21. What believes could we be wrong about today this is why people must go back and learn themselves what is the truth. For all we know global warming could be wrong!

  22. The infographics show talks about the handling of radiation
    Me: so what your saying is with great power comes great responsibility?

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