Separating AI reality from hyped-up fiction isn’t always easy. That’s why we’ve created the AI Hype Index—a simple, at-a-glance summary of everything you need to know about the state of the industry. Large language models confidently present their responses as accurate and reliable, even when they’re neither of those things. That’s why we’ve recently seen chatbots supercharge vulnerable people’s delusions, make citation mistakes in an important legal battle between music publishers and Anthropic, and (in the case of xAI’s Grok) rant irrationally about “white genocide.” But it’s not all bad news—AI could also finally lead to a better battery life for your iPhone and solve tricky real-world problems that humans have been struggling to crack, if Google DeepMind’s new model is any indication. And perhaps most exciting of all, it could combine with brain implants to help people communicate when they have lost the ability to speak.

Published May 31, 2025 6:00am EDT close Brain implant enables ALS patient to communicate using AI ALS patient communicates with the world using only his thoughts. Imagine losing your ability to speak or move, yet still having so much to say. For Brad G. Smith, this became his reality after being diagnosed with ALS, a rare and progressive disease that attacks the nerves controlling voluntary muscle movement. But thanks to a groundbreaking Neuralink brain implant, Smith is now able to communicate with the world using only his thoughts. ALS patient Brad G. Smith and his family. (Bradford G. Smith/X)Life before NeuralinkBefore receiving the Neuralink implant, Smith relied on eye-tracking technology to communicate. While impressive, it came with major limitations. "It is a miracle of technology, but it is frustrating. It works best in dark rooms, so I was basically Batman. I was stuck in a dark room," Smith shared in a recent post on X. Bright environments would disrupt the system, making communication slow and sometimes impossible. Now, Smith says, "Neuralink lets me go outside and ignore lighting changes."PARALYZED MAN WITH ALS IS THIRD TO RECEIVE NEURALINK IMPLANT, CAN TYPE WITH BRAIN ALS patient Brad G. Smith. (Bradford G. Smith/X)How the Neuralink brain implant worksSmith is the first non-verbal person and only the third individual worldwide to receive the Neuralink Brain-Computer Interface (BCI). The device, about as thick as five stacked coins, sits in his skull and connects to the motor cortex-the part of the brain that controls movement.Tiny wires, thinner than human hair, extend into Smith's brain. These pick up signals from his neurons and transmit them wirelessly to his MacBook Pro. The computer then decodes these signals, allowing Smith to move a cursor on the screen with his thoughts alone.As Smith explains, "The Neuralink implant embedded in my brain contains 1024 electrodes that capture neuron firings every 15 milliseconds generating a vast amount of data. Artificial intelligence processes this data on a connected MacBook Pro to decode my intended movements in real time to move the cursor on my screen. Neuralink does not read my deepest thoughts or words I think about. It just reads how I wanna move and moves the cursor where I want."WHAT IS ARTIFICIAL INTELLIGENCE (AI)? Neuralink brain implant. (Bradford G. Smith/X)Training the brain-computer connectionLearning to use the system took some trial and error. At first, the team tried mapping Smith's hand movements to the cursor, but it didn't work well. After more research, they discovered that signals related to his tongue were the most effective for cursor movement, and clenching his jaw worked best for clicking. "I am not actively thinking about my tongue, just like you don't think about your wrist when you move a mouse. I have done a lot of cursor movements in my life. I think my brain has switched over to subconscious control quickly so I just think about moving the cursor," Smith said. ALS patient Brad G. Smith with his wife and child. (Bradford G. Smith/X)Everyday life: Communication, play, and problem-solvingThe Neuralink implant has given Smith new ways to interact with his family and the world. He can now play games like Mario Kart with his children and communicate more quickly than before. The system includes a virtual keyboard and shortcuts for common actions, making tasks like copying, pasting and navigating web pages much easier.Smith also worked with Neuralink engineers to develop a "parking spot" feature for the cursor. "Sometimes you just wanna park the cursor and watch a video. When it is in the parking spot, I can watch a show or take a nap without worrying about the cursor," he explained. ALS patient Brad G. Smith and his child. (Bradford G. Smith/X)AI assistance: Keeping up with conversationTo speed up communication even more, Smith uses Grok, Elon Musk's AI chatbot. Grok helps him write responses and even suggests witty replies. "We have created a chat app that uses AI to listen to the conversation and gives me options to say in response. It uses Grok 3 and an AI clone of my old voice to generate options for me to say. It is not perfect, but it keeps me in the conversation and it comes up with some great ideas," Smith shared. One example? When a friend needed a gift idea for his girlfriend who loves horses, the AI suggested a bouquet of carrots. ALS patient Brad G. Smith and his family. (Bradford G. Smith/X)The human side: Family, faith and perspectiveSmith's journey has been shaped by more than just technology. He credits his wife, Tiffany, as his "best caregiver I could ever imagine," and recognizes the support of his kids, friends and family. Despite the challenges of ALS, Smith finds meaning and hope in his faith. "I have not always understood why God afflicted me with ALS but with time I am learning to trust his plan for me. I'm a better man because of ALS. I'm a better disciple of Jesus Christ because of ALS. I'm closer to my amazing wife, literally and figuratively, because of ALS," he said. ALS patient Brad G. Smith and his family. (Bradford G. Smith/X)Looking ahead: What does this mean for others?Neuralink's technology is still in its early stages, but Smith's experience is already making waves. The company recently received a "breakthrough" designation from the Food and Drug Administration for its brain implant device, which hopes to help people with severe speech impairments caused by ALS, stroke, spinal cord injury and other neurological conditions.Neuro-ethicists are watching closely, as the merging of brain implants and AI raises important questions about privacy, autonomy and the future of human communication. ALS patient Brad G. Smith and his family. (Bradford G. Smith/X)Kurt's key takeawaysSmith's story is about resilience, creativity and the power of technology to restore something as fundamental as the ability to communicate. As Smith puts it,CLICK HERE TO GET THE FOX NEWS APPIf you or a family member lost the ability to speak or move, would you consider a brain implant that lets you communicate with your thoughts? Let us know by writing to us atCyberguy.com/ContactFor more of my tech tips and security alerts, subscribe to my free CyberGuy Report Newsletter by heading to Cyberguy.com/NewsletterAsk Kurt a question or let us know what stories you'd like us to cover.Follow Kurt on his social channels:Answers to the most-asked CyberGuy questions:New from Kurt:Copyright 2025 CyberGuy.com. All rights reserved.   Kurt "CyberGuy" Knutsson is an award-winning tech journalist who has a deep love of technology, gear and gadgets that make life better with his contributions for Fox News & FOX Business beginning mornings on "FOX & Friends." Got a tech question? Get Kurt’s free CyberGuy Newsletter, share your voice, a story idea or comment at CyberGuy.com.

Image by BSIP / UIG Via GettyStudiesA nasty bacterial superbug that kills hundreds of thousands of people per year is spreading through hospitals — and it feeds on something surprising, scientists have now found.Researchers from the Brunel University of London have found, per a new study in the journal Cell, that the bacterial Pseudomonas aeruginosa appears to "digest" medical plastic.Associated with more than 559,000 deaths globally per year, this drug-resistant bug is, according to the Center for Disease Control and Prevention, believed to cause other illnesses like pneumonia or urinary tract infections. People often seem to develop it after surgery, but until this study, researchers weren't aware that it might be living or feeding on medical plastics.By analyzing a strain of the bacteria taken from a patient's wound swab, the microbial researchers found that P. aeruginosa seems specifically to survive longer on polycaprolactone, a plastic used in all kinds of medical interventions ranging from sutures, stints, and surgical mesh to wound dressings, drug-delivery patches, and implants.In Brunel University's press release about the "world-first" research, study leader Ronan McCarthy said this finding suggests that medical professionals should rethink how bugs spread throughout hospitals and other healthcare settings."Plastics, including plastic surfaces, could potentially be food for these bacteria," McCarthy said. "Pathogens with this ability could survive for longer in the hospital environment."The study also, as the professor noted, "means that any medical device or treatment that contains plastic" — including the ventilators some pneumonia patients need and catheters necessary for UTIs — "could be susceptible to degradation by bacteria."Beyond its ability to break down such important medical tools, the researchers also found that the enzyme they isolated appears to grow stronger biofilms, or outer layers that help bacteria resist antibiotics and make them harder to treat, after digesting plastic.Though there will obviously need to be more study to figure out how best to head off this plastic-eating menace, there's a 200-year history of pathogenic adaptation behind P. aeruginosa that suggests it may eventually circumvent any such measures.Still, McCarthy pointed out that scientists "need to understand the impact this has on patient safety.""Plastic is everywhere in modern medicine," he said, "and it turns out some pathogens have adapted to degrade it."Share This Article

Valve co-founder and CEO Gabe Newell, the company behind Half-Life and DOTA 2 and Counter-Strike and preeminent PC game distribution platform Steam, has long toyed with the idea that your brain should be more connected to your PC. It began over a decade ago with in-house psychologists studying people’s biological responses to video games; Valve once considered earlobe monitors for its first VR headset. The company publicly explored the idea of brain-computer interfaces for gaming at GDC in 2019.But Newell decided to spin off the idea. That same year, he quietly incorporated a new brain-computer interface startup, Starfish Neuroscience — which has now revealed plans to produce its very first brain chip later this year.Starfish’s first blog post, spotted by Valve watcher Brad Lynch, makes it clear we’re not talking about a complete implant yet. This bit is the custom “electrophysiology” chip designed to record brain activity (like how Neuralink can “read your mind” so patients can interact with computers) and stimulate the brain (for disease therapy), but Starfish isn’t claiming it’s already built the systems to power it or the bits to stick it into a person’s head.“We anticipate our first chips arriving in late 2025 and we are interested in finding collaborators for whom such a chip would open new and exciting avenues,” writes Starfish neuroengineer Nate Cermak (bolding theirs), suggesting that Starfish might wind up partnering with other companies for wireless power or even the final brain implant.But the goal, writes Starfish, is a smaller and less invasive implant than the competition, one that can “enable simultaneous access to multiple brain regions” instead of just one site, and one that doesn’t require a battery. Using just 1.1 milliwatts during “normal recording,” Starfish says it can work with wireless power transmission instead.Here’s the chip’s current spec sheet:Low power: 1.1 mW total power consumption during normal recording Physically small: 2 x 4mm (0.3mm pitch BGA) Capable of both recording (spikes and LFP) & stimulation (biphasic pulses) 32 electrode sites, 16 simultaneous recording channels at 18.75kHz 1 current source for stimulating on arbitrary pairs of electrodes Onboard impedance monitoring and stim voltage transient measurement Digital onboard data processing and spike detection allows the device to operate via low-bandwidth wireless interfaces. Fabricated in TSMC 55nm processNeuralink’s N1, for comparison, has 1,024 electrodes across its 64 brain-implanted threads, a chip that consumed around 6 milliwatts as of 2019, a battery that periodically needs wireless charging, and the full implant (again, not just the chip) is around 23mm wide and 8mm thick. The Elon Musk-led company has reportedly already implanted it in three humans; while some of the threads did detach from the first patient’s brain, he still has functionality and has been giving interviews.Starfish says it could be important to connect to multiple parts of the brain simultaneously, instead of just one region, to address issues like Parkinson’s disease. “there is increasing evidence that a number of neurological disorders involve circuit-level dysfunction, in which the interactions between brain regions may be misregulated,” Cermak writes.In addition to multiple simultaneous brain implants, the company’s updated website says it’s working on a “precision hyperthermia device” to destroy tumors with targeted heat, and a brain-reading, robotically guided transcranial magnetic stimulation (TMS) system for addressing neurological conditions like bipolar disorder and depression.In case you’re wondering how any of this might make its way back to gaming, I’ll leave you with Valve’s talk from GDC 2019 about brain-computer interfaces.See More:

More than a decade ago, researchers at antivirus company Kaspersky identified suspicious internet traffic of what they thought was a known government-backed group, based on similar targeting and its phishing techniques. Soon, the researchers realized they had found a much more advanced hacking operation that was targeting the Cuban government, among others. Eventually the researchers were able to attribute the network activity to a mysterious — and at the time completely unknown — Spanish-speaking hacking group that they called Careto, after the Spanish slang word (“ugly face” or “mask” in English), which they found buried within the malware’s code.  Careto was never publicly linked to a specific government. But TechCrunch has now learned that the researchers who first discovered the group were convinced that Spanish government hackers were behind Careto’s espionage operations. When Kaspersky first revealed the existence of Careto in 2014, its researchers called the group “one of the most advanced threats at the moment,” with its stealthy malware capable of stealing highly sensitive data, including private conversations and keystrokes from the computers it compromised, much akin to powerful government spyware today. Careto’s malware was used to hack into government institutions and private companies around the world. Kaspersky avoided publicly blaming who it thought was behind Careto. But internally, according to several people who worked at Kaspersky at the time and had knowledge of the investigation, its researchers concluded that Careto was a hacking team working for the Spanish government.  “There was no doubt of that, at least no reasonable [doubt],” one of the former employees told TechCrunch, who like other sources in this story agreed to speak on condition of anonymity to discuss sensitive matters. Careto is one of only a handful of Western government hacking groups that has ever been discussed in public, along with U.S. government units such as Equation Group, widely believed to be the U.S. National Security Agency; the Lamberts, believed to be the CIA; and the French government group known as Animal Farm, which was behind the Babar and Dino malware. In a rare admission, Bernard Barbier, former head of the French intelligence service DGSE publicly confirmed the French government was indeed behind Babar.  The Spanish government now joins this small group of Western government hacking groups. A screenshot of Careto’s malware code, which inspired the name of the hacking group. (Image: Kaspersky) Early in its investigation, Kaspersky discovered that the Careto hackers had targeted a particular government network and systems in Cuba, according to a second former Kaspersky employee.  It was this Cuban government victim that sparked Kaspersky’s investigation into Careto, according to the people speaking with TechCrunch. “It all started with a guy who worked for the Cuban government who got infected,” the third former Kaspersky employee, with knowledge of the Careto investigation, told TechCrunch. The person, who referred to the Cuban government victim as “patient zero,” said that it appeared the Careto hackers were interested in Cuba because during that time there were members of the Basque terrorist organization ETA in the country. Kaspersky researchers noted in a technical report published after their discovery that Cuba had by far the most number of victims per country at the time of the investigation into Careto’s activities, specifically one unnamed Cuban government institution, which the report said showed “the current interest of the attackers.”  This Cuban government victim would prove key to link Careto to Spain, according to the former Kaspersky employees. “Internally we knew who did it,” the third former Kaspersky employee said, adding that they had “high confidence” it was the Spanish government. Two other former Kaspersky employees, who also had knowledge of the investigation, said the researchers likewise concluded Spain was behind the attacks.  The company, however, decided not to disclose it. “It wasn’t broadcast because I think they didn’t want to out a government like that,” a fourth former Kaspersky researcher said. “We had a strict ‘no attribution’ policy at Kaspersky. Sometimes that policy was stretched but never broken.” Apart from Cuba, other Careto targets also pointed to Spain. The espionage operation affected hundreds of victims in Brazil, Morocco, Spain itself and — perhaps tellingly — Gibraltar, the disputed British enclave on the Iberian peninsula that Spain has long claimed as its own territory. Kaspersky declined to answer questions about its researchers’ conclusions. “We don’t engage in any formal attribution,” Kaspersky spokesperson Mai Al Akkad told TechCrunch in an email. The Spanish Ministry of Defense declined to comment. The Cuban government did not respond to emails sent to its Ministry of Foreign Affairs. The discovery of Careto After Kaspersky discovered the group’s malware in 2014 and, as a result, learned how to identify other computers compromised by it, the researchers found evidence of Careto infections all over the world, compromising victims in 31 countries spanning several continents.  In Africa, the group’s malware was found in Algeria, Morocco, and Libya; in Europe, it targeted victims in France, Spain, and the United Kingdom. In Latin America, there were victims in Brazil, Colombia, Cuba, and Venezuela.  In its technical report, Kaspersky said that Cuba had the most victims that were being targeted, with “all belonging to the same institution,” which the researchers perceived as of significance to the hackers at that point in time.  Spain had its own particular interest in Cuba in the preceding years. As an exiled Cuban government official told the Spanish daily El Pais at the end of 2013, there were around 15 members of the terror group ETA who lived in Cuba with the approval of the local government. In 2014, a leaked U.S. diplomatic cable noted that Cuba had given refuge to ETA terrorists for years. Earlier in 2010, a Spanish judge ordered the arrest of ETA members living in Cuba. When covering the news of the discovery of Careto, the Spanish online news outlet El Diario noted that targeting countries such as Brazil and Gibraltar would favor the Spanish government’s “geostrategic interests.” The Spanish government had been pushing for a consortium of government-owned and private companies to win a bid to build a high-speed railway in Brazil from Rio de Janeiro to São Paulo.  Aside from targeting government institutions, embassies, and diplomatic organizations, Kaspersky said the Careto group also targeted energy companies, research institutions, and activists.  Kaspersky researchers wrote that they were able to find evidence that the Careto malware existed as far back as 2007, and found subsequent versions of Careto capable of exploiting Windows PCs, Macs, and Linux computers. The researchers said they found possible evidence of code capable of targeting Android devices and iPhones. While Kaspersky didn’t make its internal attribution public, its researchers left clear hints that pointed to Spain.  First, the company researchers noted that they found a string in the malware code that was particularly interesting: “Caguen1aMar.” That string is a contraction for the popular Spanish expletive, “me cago en la mar,” which literally means “I sh–t in the sea,” but roughly translates to “f—k,” a phrase typically used in Spain, and not in other Spanish-speaking countries.   When Kaspersky announced its discovery of Careto in 2014, the company published a map showing all the countries that the hacking group had targeted. Along with the map, Kaspersky included an illustration of a mask with bull’s horns and a nose ring (the bull is a national symbol of Spain), castanets or clackers (an instrument used in Spanish folk music), and the red and yellow colors of the Spanish flag.  A detail in the map revealed how important Cuba was for Careto. For certain countries, Kaspersky added icons specifying what type of targets it was able to identify. The map showed Cuba had a single hacked victim, marked as a government institution. Only Gibraltar, Morocco — whose proximity and territorial disputes make it a strategic espionage target for Spain — and Switzerland were the other territories with a government victim. a map of careto’s victims along with An illustration of a mask (Image: Kaspersky) Kaspersky said in 2014 that the Careto group’s malware was one of the “most advanced threats” of the time for its ability to grab highly sensitive data from a victim’s computer. Kaspersky said the malware could also intercept internet traffic, Skype conversations, encryption (PGP) keys, and VPN configurations, take screenshots, and “fetch all information from Nokia devices.” The Careto group relied in large part on spearphishing emails that contained malicious links impersonating Spanish newspapers like El País, El Mundo, and Público, and videos about political subjects and food recipes. One of the former Kaspersky employees told TechCrunch that the phishing links also included references to ETA and Basque news, which Kaspersky’s report omitted.  When clicking on these malicious links, the victim would get infected using an exploit that hacked the user’s specific device, then redirected to a legitimate web page so as to not raise suspicions, according to Kaspersky’s report.  The Careto operators also took advantage of a since-patched vulnerability in older versions of Kaspersky’s antivirus software, which the company said in its 2014 published report was how it first discovered the malware.  The ubiquity of Kaspersky’s software in Cuba effectively made it possible for Careto to target almost anyone on the island with an internet connection. (By 2018, the Russian antivirus company controlled some 90% of the island’s internet security market, according to Cuba Standard, an independent news website.) The antivirus is so popular across the country that the company’s name has become part of the local slang. But soon after Kaspersky published its research, the Careto hackers shut down all of its operations discovered by the Russian firm, going as far as wiping its logs, which researchers noted was “not very common” and put Careto into the “elite” section of government hacking groups. “You can’t do that if you’re not prepared,” one of the former Kaspersky employees told TechCrunch. “They systematically, and in a quick manner, destroyed the whole thing, the whole infrastructure. Boom. It was just gone.” Careto gets caught again After Careto went dark, neither Kaspersky nor any other cybersecurity company publicly reported detecting Careto again — until last year.  Kaspersky announced in May 2024 that it had found Careto’s malware once again, saying it saw the group target an unnamed organization in Latin America that was “previously compromised” by the hacking group most recently in 2022, again in 2019, and on another occasion more than 10 years ago. Careto also hacked a second unnamed organization, located in Central Africa, said Kaspersky. In a blog post later in December 2024, Kaspersky’s researchers attributed the new hacks to Careto “with medium to high confidence,” based in part on filenames that were “alarmingly similar” to filenames found in Careto’s activities from a decade ago, as well as overlapping tactics, techniques, and procedures, or TTPs, a cybersecurity expression that refers to the unique behaviors of a certain hacking group. Kaspersky researchers Georgy Kucherin and Marc Rivero López, who wrote a paper and presented their research at the Virus Bulletin security conference in October 2024, said Careto “has always conducted cyber attacks with extreme caution,” but still “managed to make small but fatal mistakes during their recent operations” that matched activity from Careto a decade earlier. Despite that, Kucherin told TechCrunch that they don’t know who, or which government, is behind the Careto hacking group.  “It’s likely a nation state,” said Kucherin. “But what entity it was, who developed the malware? From a technical perspective, it’s impossible to tell.” Contact Us Do you have more information about Careto (aka The Mask), or other government hacking groups and operations? From a non-work device and network, you can contact Lorenzo Franceschi-Bicchierai securely on Signal at +1 917 257 1382, or via Telegram and Keybase @lorenzofb, or email. According to Kaspersky’s most recent report, this time the Careto hackers broke into the unnamed Latin American victim’s email server and then planted its malware.  In one of the hacked machines the researchers analyzed, Kaspersky found that Careto’s malware could surreptitiously switch on the computer’s microphone (while hiding the Windows icon that normally alerts the user that the mic is on), steal files, such as personal documents, session cookies that can allow access to accounts without needing a password, web browsing histories from several browsers, and more. In the case of another victim, according to the report, Careto hackers used a set of implants that work as a backdoor, a keylogger, and a screenshot-taker.  Despite the fact that they got caught, and compared to what Kaspersky found more than a decade ago, Kucherin said that the Careto hackers are “still that good.” Compared to the larger and more well-known government-backed hacking groups, like the North Korean Lazarus Group and China’s APT41, Kucherin said Careto is a “very small [advanced persistent threat] that surpasses all those large ones in complexity.” “Their attacks are a masterpiece,” said Kucherin.

TNW Backstage returns this week to explore one of tech’s most fascinating frontiers: brain-computer interfaces (BCIs). The capabilities of these neural devices are rapidly expanding. They’ve been implanted in skulls and worn as headbands. They’ve measured focus, treated Parkinson’s disease, and enabled paralysed people to control computers with their minds. A range of research labs and tech firms are developing BCIs. Yet the spotlight has been dominated by one company: Elon Musk’s Neuralink. The startup has put brain implants in monkeys so they can play Pong with their minds. Musk also has big plans for humans, from giving us “superpowers” to downloading our memories. But shockingly, not everyone is keen on the idea of Elon controlling their brains. Thankfully, there are other options. One of them comes from Dutch healthtech company MindAffect. The company uses BCIs primarily for hearing and visual tests. Worn as headbands, the devices analyse the brain’s responses to stimulation, which reveals what the user saw or heard. It’s completely non-invasive, affordable, and requires little staff support. MindAffect’s CEO, Jennifer Goodall, discusses the system on this week’s episode of TNW Backstage. We revisit her session from TNW Conference 2024 and discuss the healthtech trends shaping this year’s event. You can listen to the show on Spotify, at our dedicated website, or via the media player at the bottom of this article. Once you’re done, check out our previous episodes of the podcast, which goes behind the scenes of TNW Conference and the tech shaping our world. In our debut show, we explored the data security landscape — and Meta’s controversial “pay or consent” model — with Ron de Jesus, the world’s first Field Chief Privacy Officer. In our second episode, comedy content creator Derek Mitchell and TNW co-founder Boris discussed the value of humour in tech businesses. To celebrate the podcast’s launch, we’re also offering an exclusive discount on tickets for TNW Conference, which takes place in Amsterdam on June 19 and 20. You’ll find the offer hidden in each episode of TNW Backstage. Thanks for reading — and now, for listening too. Story by Thomas Macaulay Managing editor Thomas is the managing editor of TNW. He leads our coverage of European tech and oversees our talented team of writers. Away from work, he e (show all) Thomas is the managing editor of TNW. He leads our coverage of European tech and oversees our talented team of writers. Away from work, he enjoys playing chess (badly) and the guitar (even worse). Get the TNW newsletter Get the most important tech news in your inbox each week. Also tagged with

Published May 20, 2025 3:23pm EDT close 'CyberGuy': Wireless, waterproof bionic arm with 360-degree wrist rotation, lightning-fast control Kurt Knutsson discusses how the Hero PRO, a wireless, waterproof bionic arm with fast control and full 360-degree wrist rotation, transforms prosthetics. Most of us do not think twice about picking up a cup of coffee, sending a quick text or carrying groceries in from the car. For people who use prosthetic hands, though, these everyday tasks can be a real challenge. That is why the arrival of the Hero PRO by Open Bionics is such big news.This new bionic hand is waterproof, wireless and faster and stronger than anything that came before it. It is designed to help people who rely on prosthetics move through life with more ease and confidence.Even if you do not need a device like this yourself, the technology behind Hero PRO is changing what is possible for thousands of people, and it is worth knowing how far things have come. Let’s dive into what makes the Hero PRO so remarkable and why it captures so much attention. Hero PRO (Open Bionics) (Kurt "CyberGuy" Knutsson)Built for everyday lifeHero PRO is crafted from robust Nylon PA12 using advanced 3D printing, making it both tough and incredibly lightweight. In fact, it is the lightest bionic hand system available today. The design is sleek and customizable with more than 50 cover options in different colors and patterns, allowing users to swap looks to match their style and personality. Hero PRO (Open Bionics) (Kurt "CyberGuy" Knutsson)Waterproof and wireless freedomThe Hero PRO is the only bionic hand that is both fully wireless and waterproof. Rated IPX7, which means it can be submerged in water up to about 3 feet deep for 30 minutes without damage, it can handle splashes and even submersion, so users do not have to worry about getting it wet during daily activities. Wireless MyoPods, placed on the skin, pick up muscle signals to control the hand, eliminating the need for invasive implants or bulky wires. A woman using Hero PRO under running water (Open Bionics) (Kurt "CyberGuy" Knutsson)Speed, strength and precisionThis bionic hand is twice as fast as leading competitors, with fingers that open and close rapidly to keep up with busy lives. It can carry up to 57 pounds, doubling the load capacity of previous models, making tasks like carrying groceries or lifting heavy objects much easier. The patented thumb design uses a single motor for powerful and precise grips, while the index finger features a touchscreen-compatible tip for seamless device use on the go. A woman carrying a basket using Hero PRO (Open Bionics) (Kurt "CyberGuy" Knutsson)Unmatched flexibility and grip modesHero PRO offers more wrist flexion and rotation than any other bionic hand, with up to 45 degrees of manual flexion in both directions and a full 360-degree rotation. Users can quickly switch between work and sports modes, thanks to a USMC-standard wrist connector and more than 50 compatible activity attachments. With seven grip modes, including a precision key grip, users can handle everything from typing and cooking to pushing a stroller or tying shoelaces. These grips can be customized and updated wirelessly through the Sidekick App. A woman picking up produce using Hero PRO (Open Bionics) (Kurt "CyberGuy" Knutsson)Battery life and chargingA single four-hour charge powers the Hero PRO for a full day. The battery is cleverly miniaturized and integrated directly into the hand, helping to keep the weight down. USB-C charging makes powering up quick and easy, whether at home or on the go. Hero PRO being charged (Open Bionics) (Kurt "CyberGuy" Knutsson)How user feedback and a young influencer helped shape the bionic hand technologyThe development of Hero PRO was shaped by feedback from around 1,000 users, including influencer Tilly Lockey, who lost both hands to meningitis as a child. Tilly played a key role in testing and refining the technology, and her experience highlights just how transformative the Hero PRO can be. She describes being able to multitask effortlessly, like pulling a suitcase and drinking hot chocolate at the same time, and even detaching the hand to control it remotely using muscle signals. Influencer Tilly Lockey wearing Hero Pro (Open Bionics) (Kurt "CyberGuy" Knutsson)How much does the Hero Pro cost?Pricing for advanced bionic hands like the Hero PRO is not always straightforward. Open Bionics, the company behind this technology, does not list a fixed price on its website. Instead, they encourage interested users to contact them directly for a personalized quote, since each device is custom-made to fit the individual's needs.For context, most high-end bionic arms on the market can cost anywhere from $20,000 to $80,000, depending on the features and customization required. Open Bionics aims to make their devices more affordable than traditional options, with some of their earlier models reportedly costing about five times less than conventional robotic prosthetics. However, the exact price for the latest models, including the Hero PRO, will depend on factors like insurance coverage, customization and specific user requirements.If you are interested in learning more about pricing or the process, it is best to reach out directly to Open Bionics for a detailed quote tailored to your needs.Kurt's key takeawaysTechnology like the Hero PRO is not just about gadgets and gears. It is about helping people do more of the things they love with less hassle. For those who rely on prosthetic hands, every improvement can mean a world of difference, whether that is carrying a heavy bag, using a smartphone or simply feeling more confident in daily life. Even if you do not need a prosthetic yourself, it is inspiring to see how far this technology has come and how it continues to open new possibilities for so many people.What everyday challenges do you think advanced bionic technology could help overcome, and what would you most want to see in the next generation of prosthetic devices? Let us know by writing us atCyberguy.com/Contact.For more of my tech tips and security alerts, subscribe to my free CyberGuy Report Newsletter by heading to Cyberguy.com/Newsletter.Follow Kurt on his social channels:Answers to the most-asked CyberGuy questions:New from Kurt:Copyright 2025 CyberGuy.com. All rights reserved. Kurt "CyberGuy" Knutsson is an award-winning tech journalist who has a deep love of technology, gear and gadgets that make life better with his contributions for Fox News & FOX Business beginning mornings on "FOX & Friends." Got a tech question? Get Kurt’s free CyberGuy Newsletter, share your voice, a story idea or comment at CyberGuy.com.