Contributor: Lindsey Congalosi. Lesson ID: 13308
Did you know that many scientific breakthroughs only happened because researchers experimented on themselves? How does that work? Is it dangerous? Get all the facts here!
Imagine waking up one morning with a stiff neck. It's not bad, so you don't have to worry about it. Later, your mom notices that you aren't turning to look at her. When she asks why, you tell her your neck is stiff because you probably just slept funny.
Your mom is silent. You slowly turn your entire body to see her; her face is white. She's worried. To you, a stiff neck didn't mean much. But your mom is scared. She knows a stiff neck is an early symptom of a horrible disease that will eat away at your body.
It is even scarier to think this disease was a real threat in our not-too-distant past. The disease we're talking about is polio. Thankfully, we are no longer helpless against this disease.
In the 1940s and 1950s, polio killed over half a million people yearly.
In the United States, polio peaked in 1952 when over 57,000 people, mostly children, contracted it. Over 21,000 were paralyzed, and 3,145 died from the disease in that year alone.
Learn more about this disease in the following video.
The general public was very familiar with polio, and not just because it affected thousands of children each year.
Franklin Delano Roosevelt, the 32nd president of the United States, was paralyzed from the waist down. It was believed to be caused by polio; however, many scientists now believe that a different disorder caused his paralysis.
At that time, not much was known scientifically about polio. We knew it was contagious, meaning it could be passed from one person to another, and outbreaks tended to occur in the summer. And we knew that many people who got sick with polio never fully recovered, and many died.
Enter Jonas Salk, a researcher on infectious diseases.
Salk was studying the polio virus when he had an idea. He knew that patients who had recovered from polio did not contract polio again.
He thought maybe the patients' immune systems would recognize that the virus was there and create antibodies against it. This way, the antibodies would be ready if they ever became infected with the actual virus.
The virus wouldn't be able to take hold, and the person would not get sick. They would be immune to polio without ever actually getting polio.
Salk developed this dead virus by taking live polio viruses and treating them with formaldehyde, so they could not reproduce. These dead viruses were then turned into the polio vaccine.
Salk tested his vaccine on thousands of monkeys and had great success. But when it was time to test humans, a grave question arose.
Salk knew he could not get many volunteers, so he tested himself first. Then he tested his wife and three sons. They did this in their home kitchen, boiling the needles on the stove top to sanitize them.
Watch as one of his sons describes the experience in the video below.
Jonas Salk's vaccine against polio worked!
Over the next few years, millions of children were vaccinated, eradicating polio in the United States since 1979.
Polio has almost been eliminated worldwide. However, it continues to persist in a few countries where vaccination is difficult due to the geography or boycotted based on beliefs.
Jonas Salk isn't the only scientist who experimented on himself and his loved ones. Learn about a few more.
Santorio Santorio
Santorio Santorio was a doctor around the year 1600. He was successful and even developed one of the first heart rate monitors. Santorio had a weird hobby, though. He weighed himself obsessively.
He would weigh himself before he ate, after he ate, and before and after he went to the bathroom. He also weighed the food he ate. He did so much weighing that he created a giant weighing chair in which he could sit.
Santorio discovered something surprising. He was taking in more than he was putting out. Weight from his food went missing.
We now know this was because of metabolism, or food burning for energy. The missing food had been converted into energy that Santorio used to move, talk, and generally stay alive.
Although Santorio blamed the weight loss on sweat or breath, his actions contributed to the science that eventually discovered how our bodies use food.
Barry Marshall
Marshall believed bacteria from our intestines could cause stomach issues. However, the scientific community didn't agree with him. They didn't think that bacteria could survive in the strong acid of the stomach.
In 1985, after several scientific journals rejected his findings, Marshall decided to take his research further. He swallowed a solution of Helicobacter pylori, a bacteria commonly found in the digestive tract.
He expected to get a stomach ulcer at some point in the future, proving his hypothesis correct.
However, things went poorly right away. Marshall quickly started to suffer from nausea and terrible breath. About a week later, he even started vomiting.
An examination of his stomach showed that H. pylori had taken over. His stomach was filled with bacterial colonies! He had to take antibiotics to combat the bacteria and the deadly inflammation it could have caused.
But it worked. He survived and effectively proved his point. Gut bacteria could not only survive in the stomach but harm it as well. Marshall and his partner, Robin Warren, were awarded the Nobel Prize in medicine for their efforts.
Learn more with this next video.
August Bier
In 1898, surgeon August Bier needed to perform surgery on the infected foot of one of his patients. However, the patient had had severe reactions to anesthesia in the past and refused to undergo surgery again.
Bier had an idea. He decided to try injecting cocaine directly into the patient's spinal cord, and it worked!
The patient went through the surgery without feeling pain! However, he experienced extreme discomfort and terrible vomiting a few days later.
So, Bier improved his procedure by testing it on himself. He instructed his assistant, August Hildebrandt, to insert the needle and inject cocaine into Bier's spine.
Unfortunately, Hildebrandt messed up and used the wrong size needle. At that point, Bier decided he should test the procedure on Hildebrandt. I'm sure Hildebrandt was thrilled by this idea.
It worked! Hildebrandt didn't feel any pain, despite Bier testing this in powerful ways. This discovery was a major step in the creation of spinal anesthesia.
A few days later, however, both men felt terrible. Bier stayed home to recover while poor Hildebrandt had to go to work at the hospital to assist Bier's patients.
Later, Hildebrandt, understandably, left Bier to work somewhere where he probably wasn't required to have cocaine injected into his spinal cord.
Stubbins Ffirth
A medical student in the nineteenth century, Stubbins Ffirth was determined to prove that yellow fever was not contagious.
First, he poured "fresh black vomit" from yellow fever patient into cuts on his arm. Miraculously, he did not develop yellow fever.
Of course not. Firth escalated to dribbling vomit into his eyes and covering his body with infected patients' blood, spit, sweat, and urine. He even sat in a "vomit sauna" filled with the vapors of heated vomit. Still, no yellow fever.
Not yet, thought Firth. He took it one step further and ingested (ate) the vomit, first as pills and then directly from the mouth of the patients. Finally, he felt he had proved his point — yellow fever was not contagious.
But he was wrong. Yellow fever is contagious but only through the bloodstream. Jesse Lazear, a surgeon in the US Army, proved this by contracting yellow fever after allowing himself to be bitten by mosquitoes infected with the virus.
Ironically, it was later discovered that the mosquito that infected Lazear with yellow fever was wild and not one of the mosquitoes used in his study. Talk about bad luck.
Although 89% of self-experiments supported the hypothesis they were used to test, self-experimentation can be a dangerous and usually unnecessary route.
Today, the use of animal research and clinical trials have made self-experimentation much less common.
Now head over to the Got It? section for a review of self-experimentation in science.