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A nanoengineer teamed up with Rihanna’s tattoo artist to make smarter ink

Carson Bruns pulls back a short sleeve on his left arm to reveal a large blue tattoo while looking down at his arm with a whiteboard with marker writing on it in the background.
Rae Ellen Bichell
/
KFF Health ڱ
Carson Bruns, an assistant professor at the University of Colorado Boulder, has a sleeve of science-inspired tattoos on his left arm.

Mad-scientist kind of moments happen fairly often for nanoengineer Carson Bruns. A few months ago in his lab at the University of Colorado Boulder, he tested his latest invention on his own arm and asked a colleague for help.

“We were like, ‘OK, we’re going to tattoo ourselves. Can you help us today?’” he said.

A gloved hand holds a red light over the inner wrist of the other arm.
Rae Ellen Bichell
/
KFF Health ڱ
Carson Bruns demonstrates how to turn his tattoo on and off: UV light turns it on; a regular flashlight turns it off.

The tattoo is like a freckle, a little blue dot. But he can turn it on and off. Like the way a mood ring changes color with temperature, this tattoo changes with light: Ultraviolet light to turn it on, daylight (or even a flashlight) to turn it off.
“You can go to court and turn it off, and then go to the party and turn it on. And then go to Grandma’s house and turn it off,” said Bruns, who is affiliated with the university’s ATLAS Institute, which prides itself on fostering out-of-the-box ideas.

Bruns started a company with tattoo-artist-to-the-stars Keith “Bang Bang” McCurdy, along with a former doctoral student. Early next year, they plan to release their first product, Magic Ink, to a group of handpicked artists. The business partners have long-term hopes for smart tattoos that have a health value, but cosmetics are cheaper and simpler to get to consumers than medical devices. So, that’s where they’re starting.

The new ink will enter a market in a moment of flux for the regulation of cosmetics. The FDA steps in to urge a recall if an ink causes a bacterial outbreak but traditionally has not exercised its regulatory might over tattoo ink products as it does with other products that go into the body. (Tattoo inks don’t even have to be sterile.) But following the Modernization of Cosmetics Regulation Act of 2022, the FDA is expanding its authority over tattoo manufacturers. The agency is now accepting comments on draft guidance about tattoo ink preparation.

Scientist Carson Bruns stands in front of a black countertop with a liquid-filled beaker and other contraptions on it.
Rae Ellen Bichell
/
KFF Health ڱ
Scientist Carson Bruns’ laboratory at the University of Colorado-Boulder makes tattoo inks by mixing, stirring, evaporating, and spinning a series of liquids until they end up with particles of dye encased in beads of plexiglass.

“To be honest with you, I don’t think either the FDA or the tattoo ink industry really knows what that’s going to look like,” said John Swierk, a chemist at the State University of New York-Binghamton. But, he said, the law does mean “the FDA has a new charge to really ensure that labeling is correct and good manufacturing practices are being followed.”

Bruns said Magic Ink is made of particles of dye, encased in beads of plexiglass — the same polymethyl methacrylate material in those dermal fillers people use to plump their lips. Dermal fillers are FDA-approved, whereas tattoo ink contents can be like a black box.

Swierk said many of the tattoo pigments in use now have been around a long time, which gives some users a base comfort level about their safety. But a new material comes with new unknowns.

“If somebody is going to get tattooed with Magic Ink, they have to accept a degree of uncertainty about what the future is going to hold with that ink,” Swierk said.

Bruns recently received funding from the National Science Foundation, which he plans to use for probing which size and type of nanoparticles are less likely to irritate the immune system and more likely to stay put where they’re placed. The immune system has been known to haul off bits of tattoo ink to the lymph nodes, dyeing them blue and green.

While Magic Ink is a cool party trick, Bruns and his colleagues have made other inks that align with their bigger goal: to make tattoos helpful.

A hand holds a small capsule filled with white substance and a blue spot at the bottom of the capsule
Rae Ellen Bichell
/
KFF Health ڱ
Nanoengineer Carson Bruns at the University of Colorado Boulder has developed a tattoo ink that turns blue when it absorbs enough ultraviolet light — the idea being that it would alert someone when their sunscreen has worn off.

Bruns and his colleagues have made one that changes color when exposed to gamma radiation — envisioning it might someday work as a built-in exposure meter. Another ink shows up when it is time to put on sunscreen. He developed yet another ink intended to act as a permanent sunscreen. None of those are available to consumers, though the permanent sunscreen is furthest along. That ink has been tested in a small group of mice; the others have been tested on pigskin.

Bruns started a company, Hyprskn, a few years ago, when Bang Bang came across his work and suggested they team up.
The name Bang Bang might not ring a bell, but the tattoos he’s done are very public: They’re cascading down Rihanna, scattered across Miley Cyrus, and peering out from LeBron James, among others. Turns out, Bang Bang loves tech.

“I would like to wave my hand and pay with my AmEx, or walk up to my car and it knows it’s me,” he said. Or, he continued, maybe there could even be health applications — like alerting him if his blood sugar is high or low, just by looking at the color of his tattoos.

Scientifically, that is still way far off. If tattoo ink were to make the leap from cosmetics into the medical realm, it would require clearing all sorts of regulatory hoops.

“There’s a lot of steps between where we are today and getting a functional tattoo that’s going to tell you something about your health,” Swierk said. “A lot of steps.”

But Bang Bang thinks the product they’re taking preorders for is step one toward building a consumer base that would be open to tattooable tech.

The first product they’re offering to consumers is Magic Ink. It’s a lot like that blue freckle on Bruns’ arm, except it’s red. For now, that’s the only color available for purchase.

“That’s how you can excite people,” said Bang Bang. “It’s almost a Trojan horse into that new goal of how do we bridge the gap between tattoo and technology.”

It’s $100 for a half-ounce bottle. That’s a lot more than regular ink costs. If the product takes off, the University of Colorado Boulder will also benefit, as it owns the intellectual property.

Bang Bang is among a few dozen people, many of them tattoo artists, who are already wearing the ink in their skin.

Tattoo artist Selina Medina has been in the business more than 20 years and used to work for an ink manufacturer. She spends a lot of time advocating for tattoo safety, volunteering with several national and international groups focused on the issue.

“I’d probably give it a year in the market before I would buy it. But it does look really interesting,” said Medina, who is on the board of directors for the Alliance of Professional Tattooists.

Medina hopes this ink is different from the UV inks she saw pop up in the 2000s, which would glow under a black light.

“It seemed like an awesome idea, but then we noticed that it faded really fast,” she said. “It would just disappear. We didn’t know what it did. We didn’t know where it went. And that was just kind of like, ‘What the hell is this stuff?’”

She expects her customers will be clamoring for Magic Ink before she’s ready to purchase it.

Looking further afield, some companies are already investing in technology embedded in the skin. A European company called DSruptive makes injectable thermometers. It said about 5,000 people — living primarily in Sweden, Japan, the U.S., and the United Kingdom — have had the devices installed. Ali Yetisen, an engineer at Imperial College London, said for companies eyeing tech embedded in the skin, diabetes is a big focus.

“That’s where the money is. Most companies invest in this area,” said Yetisen. The dream is to create something like a tattoo that could measure blood sugar in real time, and be long-lasting, he said.

“That’s the holy grail of all medical diagnostics,” he said.

While Bruns’ inventions sense external factors like light and radiation, for manufacturers looking to develop in-body tech that reacts to the blood, there are other scientific hurdles. The immune system forms little shells around foreign bodies, effectively putting up a wall between a sensor and the blood.

No one has really figured a way around that yet, said Yetisen, but a lot of people are trying.

KFF Health ڱ is a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF—an independent source of health policy research, polling, and journalism.

Rae Ellen Bichell is a Colorado correspondent for Kaiser Health ڱ, based in Longmont. Previously, she was a radio reporter covering the region for the Mountain West ڱ Bureau and KUNC. Before moving to KUNC, Bichell worked for NPR.
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