Skip to main content

Brainwave-reading temporary tattoos could take wearable tech to the next level

Outside of Soundcloud rappers and professional wrestlers like the late Bam Bam Bigelow, head tattoos aren’t something most of us encounter on a regular basis. If researchers at Austria’s Graz University of Technology and a couple of other European research labs have their way, that could all be about to change. Head tattoos may become the norm  — mind-reading, electrode-sporting head tattoos. And, like the old joke about the waiter and the fly in the man’s soup, we’re all going to want them.

Before we get any further, no, the tattoos aren’t permanent. “We use temporary tattoos like the ones for kids; essentially the same that you would use to transfer a cartoon or a drawing for creative purposes onto your skin,” Francesco Greco, assistant professor at the university’s Institute of Solid State Physics, told Digital Trends. “We use the [standard tattoo] paper as a substrate and then print on top of it circuits made out of conductive polymer, using an inkjet printer.”

To measure brain activity, the wafer-thin tattoo electrodes need to be applied on the head - just like the temporary tattoos, which are especially popular with children
Greco/TU Graz

The recipient sticks one or more of these adhesive tattoo electrodes onto their scalp. The tattoos can then be used to record high-quality electroencephalography (EEG) brain signals fresh off the scalp. In contrast to gel electrodes, there is no need for a liquid interface and the tattoos cannot dry out. Even hairs growing through their ultra-thin membrane don’t stop them from effectively performing their job.

While the tattoo electrodes are not exactly invisible (anyone shaved bald and sporting a small circuit board glued to their head has a funny habit of being conspicuous), they don’t interfere with the wearer the way that a conventional EEG electrode headset might do. The fact that they could be applied and then forgotten about is one of their most exciting aspects; making them perfectly suited for longer-term measurements. They stay on until scrubbed with soap and water to remove them.

The world’s most high-tech tattoo studio

Greco’s lab, the Laboratory of Applied Materials for Printed and Soft electronics (LAMPSe), developed the first tattoo electrodes in 2015. The first use case of these adhesive transfers was to measure heart rate and muscle activity. Half a decade on, Greco and others have optimized the technology so that it can be used to measure brain waves every bit as effectively. The work was carried out alongside researchers in both France, at the Ecole Nationale Supérieure des Mines de Saint-Étienne, and in Italy by Laura Ferrari at the BioRobotics Institute at Scuola Superiore Sant’Anna.

Researchers at TU Graz present tattoo electrodes from the printer, which are particularly attractive for long-term medical diagnostics.
Lunghammer - TU Graz

“EEG, or electroencephalography, was always the most challenging step,” Esma Ismailova, bioelectronic textiles group leader in the department of bioelectronics at Ecole Nationale Supérieure des Mines de Saint-Étienne, told Digital Trends. “We have now reached the ultimate step where we can [gather] brainwaves that are low amplitude and high frequency. It is very [difficult] to catch this kind of activity.”

There are multiple reasons why gathering brain data could be useful. One is for monitoring. The electrocardiogram (ECG) reader found in the Apple Watch has already compellingly demonstrated why wearables that constantly monitor our vital signs can be useful. In the case of the Apple Watch, conditions like atrial fibrillation, an irregular heart rhythm that can cause strokes, can be spotted by continually monitoring wearers’ heartbeat. If something goes wrong, the smartwatch can alert the user so that they may seek medical help.

Francesco Greco: Was sind Tattoo-Elektroden?

At present, there is no such thing as regular brainwave monitoring. Neurological conditions like epilepsy may be diagnosed using EEG technology, but it is unlikely patients will have regular (or even irregular) brainwave monitoring afterward. “In the case of epilepsy, you cannot really predict a crisis; you need to be able to monitor the patient,” Ismailova explained. “This kind of electrode could be used to monitor the patient at home to help clinicians to understand the origins [of the illness] and how it is propagated. They can evaluate it over time.”

A step toward brain-computer interfaces

There are other practical use cases, too. Greco thinks that this noninvasive brainwave-monitoring tech might prove a crucial step in the building of brain-computer interfaces.

“One of the wonderful things that could be possible, and that we are trying to study now, is to capture information from the brain [for use in different applications],” he said. “For example, you could capture this information, send it directly through a brain-computer interface, and use it to stimulate the muscles of a paralyzed patient. In a paralyzed patient, the brain is perfectly functioning, the muscles are perfectly functioning, but the neural communication is lost between these two points. We could try to recover disconnection by way of a brain-computer interface.”

These use cases exist in the realm of science fiction only until they suddenly don’t.

Then there are all the other potential applications of a brain-computer interface — such as monitoring mood or desires and pulling up the right information at the right time. It may even be possible to combine a brain-monitoring tattoo electrode with temporary tattoos monitoring muscle activity in other parts of the body as an added source of data.

Does Greco believe that, within our lifetimes, waking up and slapping on a low-cost wearable tattoo sensor could be as commonplace as putting on our watch or slipping our smartphone into our pocket? “Yes, I think so, because there are lots of practical applications in daily life [where this could be useful,]” he said.

The reliability and accuracy of tattoo electrodes has been successfully tested under real clinical conditions.
Greco/TU Graz

At present, this work is still a proof-of-concept demonstration rather than anything ready to be commercialized. The processing of information still needs to be carried out by wiring the electrodes to an external device. However, Greco points out that other research groups are busy working on wearables that could enable this information to be processed on the body. It could potentially also be transmitted wirelessly to a smartphone or smartwatch.

All of this remains speculation for now. But, like so much about modern wearables, these use cases exist in the realm of science fiction only until they suddenly don’t.

A paper describing the research was recently published in the journal npj Flexible Electronics.

Luke Dormehl
I'm a UK-based tech writer covering Cool Tech at Digital Trends. I've also written for Fast Company, Wired, the Guardian…
Fitbit recalls Ionic smartwatch after several burn reports
best walmart deals on apple watch garmin and fitbit ionic smartwatch adidas edition ice gray silver

Fitbit Ionic smartwatch users need to stop using their devices right now. The company has recalled its Ionic wearable after over 150 reports of the watch’s lithium-ion battery overheating, and 78 reports of burn injuries to the users. It will offer a refund of $299 to the Fitbit Ionic smartwatch users who return the device.

Fitbit has received at least 115 reports in the United States and over 50 reports internationally about the Ionic smartwatch's battery overheating. It is recalling the device as there are two reports of third-degree burns and four reports of second-degree burns out of the 78 total burn injuries report.

Read more
Razer Anzu smart glasses deal knocks $140 off the price tag
The Razer Anzu smart glasses placed on top of an open book.

While smartwatch deals have slowly claimed their place in the mainstream, smart glasses haven't turned out to be as popular. Gaming-focused brand Razer, however, is trying to renew interest in smart glasses with the Razer Anzu, which you can currently purchase from Best Buy at $140 off. If you'd like to give them a try, they're available for just $60, less than half their original price of $200.

There have been failures like the Google Glass and Snap Spectacles, and hopeful attempts like Oppo's Air Glass and Apple's secretive project, but the Razer Anzu smart glasses take a different spin on the wearable device by designing them for indoors. While they come with polarized sunglass lenses, their clear lenses are more useful with their blue light filter, which protects your eyes from screen glare to prevent discomfort even after hours of playing video games or working from home. The smart glasses, which also have a built-in omnidirectional microphone and speakers, may also be more comfortable to wear for an extended period of time compared to headsets and headphones. You'll enjoy smooth, stutter-free sound with the Razer Anzu's low latency audio with a 60ms Bluetooth connection.

Read more
The best Samsung Galaxy Watch 4 screen protectors
Person holding skateboard while wearing the Samsung Galaxy Watch 4.

A new, sleek design and digital bezel help the Galaxy Watch 4 stand out in the crowd and set it apart from the traditional style of the Galaxy Watch 4 Classic. Whether you've picked up a 40mm model with a 1.2-inch Super AMOLED screen or opted for more screen real estate with the 44mm model, that stand-out design needs protecting from scratches and knocks. That means it's time for our picks of the best Samsung Galaxy Watch 4 screen protectors, with something to suit all budgets.

These screen protectors will all fit the 40mm or 44mm models of the Galaxy Watch 4. If you've got a Samsung Galaxy Watch 4 Classic, these won't fit.
Spigen Glas.tR EZ Fit Screen Protector

Read more