Hoping to protect himself from snake bites — and out of what he calls “simple curiosity” — he began injecting himself with small doses of snake venom and then slowly increased the amount to try to build up tolerance. He would then let snakes bite him.
“At first, it was very scary," Friede said. “But the more you do it, the better you get at it, the more calm you become with it.”
While no doctor or emergency medical technician — or anyone, really — would ever suggest this is a remotely good idea, experts say his method tracks how the body works. When the immune system is exposed to the toxins in snake venom, it develops antibodies that can neutralize the poison. If it's a small amount of venom the body can react before it's overwhelmed. And if it's venom the body has seen before, it can react more quickly and handle larger exposures.
Friede has withstood snakebites and injections for nearly two decades and still has a refrigerator full of venom. In videos posted to his YouTube channel, he shows off swollen fang marks on his arms from black mamba, taipan and water cobra bites.
“I wanted to push the limits as close to death as possible to where I’m just basically teetering right there and then back off of it," he said.
But Friede also wanted to help. He emailed every scientist he could find, asking them to study the tolerance he'd built up.
And there is a need: Around 110,000 people die from snakebite every year, according to the World Health Organization. And making antivenom is expensive and difficult. It is often created by injecting large mammals like horses with venom and collecting the antibodies they produce. These antivenoms are usually only effective against specific snake species, and can sometimes produce bad reactions due to their nonhuman origins.
When Columbia University's Peter Kwong heard of Friede, he said, “Oh, wow, this is very unusual. We had a very special individual with amazing antibodies that he created over 18 years.”
In a study published Friday in the journal Cell, Kwong and collaborators shared what they were able to do with Friede's unique blood: They identified two antibodies that neutralize venom from many different snake species with the aim of someday producing a treatment that could offer broad protection.
It's very early research — the antivenom was only tested in mice, and researchers are still years away from human trials. And while their experimental treatment shows promise against the group of snakes that include mambas and cobras, it's not effective against vipers, which include snakes like rattlers.
“Despite the promise, there is much work to do,” said Nicholas Casewell, a snakebite researcher at Liverpool School of Tropical Medicine in an email. Casewell was not involved with the new study.
Friede's journey has not been without its missteps. Among them: He said after one bad snake bite he had to cut off part of his finger. And some particularly nasty cobra bites sent him to the hospital.
Friede is now employed by Centivax, a company trying to develop the treatment and that helped pay for the study. He's excited that his 18-year odyssey could one day save lives from snakebite, but his message to those inspired to follow in his footsteps is simple: “Don't do it," he said.
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