Neurolief, a global leader in medical devices delivering groundbreaking neurotechnology innovations for the treatment of Neurological and Neuropsychiatric disorders, announces the approval of its neuromodulation device, Relivion, by the Japanese Ministry of Health, Labor and Welfare (MHLW). This approval marks a historic moment for Neurolief and its partner Sawai Pharmaceutical Co., Ltd, as Relivion becomes the first neuromodulation device approved in Japan for at-home use in the acute treatment of migraine.

Relivion is a novel, non-invasive multi-channel brain neuromodulation technology. It stands out by concurrently stimulating the occipital and trigeminal nerve branches in the head, effectively modulating brain networks associated with debilitating migraine headaches. The system is complemented by a state-of-the-art patient mobile appand a physician interface featuring cloud-enabled data-tracking capabilities, allowing seamless AI integration and enabling remote patient monitoring.

Marketing efforts for Relivion will be led by Sawai Pharmaceutical Co., Ltd, which have entered into an exclusive partnership agreement with Neurolief for development and commercialization of Relivion for migraine and depression indications in Japan.

Scott Drees, CEO of Neurolief, expressed great enthusiasm for the MHLW approval, emphasizing the profound impact this decision will have on the millions of migraine patients in Japan. Heunder scored this achievement as a pivotal step in realizing Neurolief's mission of bringing its pioneering neurotechnology to individuals globally.

Related Positive Results for Theranicas Neuromodulation Device

Motohiko Kimura, President at Sawai pharmaceutical, emphasized the company's unwavering dedication to prioritizing patients through Sawai's corporate philosophy of 'Always Putting Patients First'. This commitment reflects Sawai's strong resolve to contribute to healthier lives. With the upcoming introduction of the Relivion neuromodulation system in Japan, Sawai aims to elevate the landscape of acute migraine treatment options which is currently limited primarily to drug therapy.

About Neurolief

Neurolief is a leading brainneurotechnology company dedicated to enhancing the lives of patients suffering from Neurological and Neuropsychiatric disorders. Comprising experienced professionals with a proven track record in neuroscience, neuromodulation technology and the neurotech devices industry, the company has developed Relivion MG for the treatment of migraine and Relivion DP for Major Depressive Disorder (MDD). These are the world's first and only non-invasive multi-channel brain neuromodulation technologies designed to concurrently stimulate the occipital and trigeminal nerve branches in the head, there by modulating brainnet works associated with migraine and depression. Relivion MG is currently FDA, CE and MHLW approved for the acute treatment of migraine and aims to provide a highly effective alternative to pharmaceutical therapies. The system also includes a patient mobile app and a physicians' interface with cloud-enabled data-tracking features, enabling AI in corporation and remote patient monitoring.The company is actively pursuing FDA and CE mark approvals for the treatment of Major Depressive Disorder (MDD).

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Doublepoint Technologies, a leading innovator in gesture detection technology, today released a free app "Wow Mouse" on Play Store that lets consumers supercharge their Android watches with cutting-edge gesture-touch technology and instant Bluetooth connectivity to headsets, phones, tablets, computers and more. The Finnish startup is releasing a new version of its groundbreaking gesture detection algorithm, now compatible with WearOS smartwatches.

Gesture technology leader Doublepoint Technologies with release of “Wow Mouse” on Play Store. The free app lets consumers supercharge their Android smartwatches with cutting-edge gesture-touch technology and instant Bluetooth connectivity to headsets, phones, tablets, computersand more.

"We're not just changing the game —we're rewriting the rules for human-computer interaction with our touch-based gesture tracking. It's a leap forward, delivering a natural and powerful user experience for smartwatches and beyond," said Ohto Pentikäinen, CEO of Doublepoint. "Our algorithm is designed to seamlessly blend with existing products, empowering OEMs to revolutionize user experiences without reinventing the wheel.

Read more Google’s Pixel Watch Can Now Detect Falls

Any consumer, researcher, developer or tinkerer can empower their WearOS smartwatch with Doublepoint to recognizegestures or explore the software.

At this year, Doublepoint unveils the latest iteration of its core software, introducing Human Interface Devicesupport. This advancement in gesture control introduces stationary pinch and hold, a major breakthrough in wrist-based device control, which allows OEMs and developers to offer consumers a more immersive experience combining gesture and touch.

With HID support, any device can identify the app as a "mouse," facilitating seamless integration with most Bluetooth-enabled devices. This opens up new possibilities for intuitive interaction across a wide range of electronic devices.

In conjunction with the software release, Doublepoint is thrilled to announce the opening of preorders for the Doublepoint Evaluation Kit. Designed for companies seeking to embed the Doublepoint gesture detection algorithm, the kit includes a Doublepoint wristband, advanced algorithms and evaluation tools.

Key features of the Doublepoint Kit

• Advanced Gesture Detection: The algorithm includes pinch and hold and is robust to arm movements, serving crucial applications in augmented reality headset input, accessibility, IoT, one-handed smartwatch control and more.
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• Licensable Software: The software in the Doublepoint Kit is instantly licensable for integration into existing smartwatches, fitness trackers and other smart wristbands.
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• Reference Design: The Doublepoint Kit serves as a reference design, enabling the creation of new device categories, including input wristbands.

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Pimax, a leading innovator in the Virtual Reality (VR) industry, announced it will unveil its latest technological advancements.

At an exclusive event for special guests, attendees were privileged to experience the revolutionary 60G AirLink wireless module, paired with Pimax's current flagship product, the Pimax Crystal. The integration of the 60G AirLink with the Crystal's standard eye-tracking feature elevates it to being the world's first ultra-high-definition VR headset with wireless connectivity.

The 60G AirLink, utilizing cutting-edge 60G millimeter wave (mmWave) technology, highly anticipated in the VR domain,ensures high-speed data transmission and low latency, pivotal for videostreaming and immersive VR experiences. It boasts impressive band width androbust anti-interference capabilities, providing users with an unparalleled audiovisual journey and an ultra-realistic VR experience, all free from the constraints of cables. According to Pimax representatives, these groundbreaking products are slated for official release to consumers in the near future.

Related Newly Developed Virtual Reality Medical Training Approach

An exclusive invitation-only demo featured Pimax's next-generation flagship, the groundbreaking 12K-EVTθ (Engineering Verification Test Zero) prototype. This prototype sets a new benchmark in the VR industry with superior specifications such as unmatched resolution and expansive field of view (FOV) and a revolutionary interchangeable optical system.

Besides the new revelations, visitors to the Pimax booth also had numerous opportunities to experience the Pimax Crystalin various highly entertaining settings, including flight simulation rigs, racing rigs, and VR motion capture gloves. Boasting the highest resolution in consumer VR, the Crystal incorporates innovative features like inside-outtracking, eye-tracking, the 60G AirLink wireless module, and glass lenses for optimal visual clarity.

Pimax's booth attracted significant attention from renowned media outlets including Forbes, PC Gamer, IGN, ZDNET, The Daily Beast, CHIP and numerous industry heavy-weights and influencers.

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Ossia Inc. today announced the launch of its Cota Forever Magnetic Phone Charger to enable wireless charging of mobile Qi2 and MagSafe devices, such as the iPhone or Samsung Galaxy. The charger is powered by Ossia's FCC-approved Cota Real Wireless Power - the patented technology that delivers power at a distance, and without the need for line-of-sight.

The Cota Forever Magnetic Phone Charger, built by a Toyota Group subsidiary, Toyoda Gosei, a global product manufacturer and an Ossia licensing partner, is a lightweight, rectangular device the sizeof half-a-deck of cards. It comes ready out of the box to attach to the back of a Qi2 or MagSafe device and receives wireless power, which it delivers to the device continuously without further user intervention. This enables users to charge their mobile phones without cords, charging pads or plugging into another device safely over the air and at a distance, even while in use or in motion.

The Cota Forever Magnetic Phone Charger has been named a CES 2024 Innovation Awards winner, the seventh time a Cota-powered Ossia innovation has received that honor in the yearly competition. The awards recognize outstanding design and engineering achievements in consumer technology products. Ossia received its most recent recognition in the mobile devices, accessories and apps category.

"Ossia and Toyoda Gosei have been close partners in developing the Cota Technology for the past three years. This award win is one recognition of the multiple products our two companies are building together. Ossia provides Cota Real Wireless Power and Toyoda Goseibrings extensive product and manufacturing expertise," says Doug Stovall, CEO at Ossia. "The Cota Forever phone charger addresses the major painpoint of charging the mobile phone. One of many products coming to market that will make Cota wireless power a ubiquitous global technology."

Read more Motorola’s New Bendable, Wearable Phone

The Cota Forever Magnetic Charger receives power from a Cota transmitter that can be placed into any environment. The receiver initiates the connection by sending a beacon signal to find the transmitter. The transmitter then sends power back in the same path. This back-and-forth between devices and transmitter happens 100 times per second.

"Over several decades, Toyoda Gosei has explored new ways to enrich people's lives with our technology. Our partnership with Ossia is an exciting and momentous example of that," says Shinichiro Fuki, General Manager of New Value Creation and Development Division at Toyoda Gosei. "The Cota wireless power technology will enable a more sustainable and hands-free reality for a world that is increasingly reliant on mobile devices."

About Ossia

Ossia Inc. is leading the world on what is possible with wireless power. Ossia's flagship Cota technology redefines wireless power by safely delivering remote, targeted energy to devices at a distance. Ossia's Cota technology is a patented smart antenna technology that automatically keeps multiple devices charged without any user intervention and enables an efficient and truly wire-free, powered-up world that is always on and always connected. Ossia is headquartered in Redmond, Washington.

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Bearpac Medical, LLC announced that the FDA has granted 510(k) clearance for its Passio Pump Drainage System for the additional indication of peritoneal to provide therapy for malignant ascites in addition to recurrent pleural effusions.

The Passio Pump Drainage System consists of the Passio Catheter, a Handheld Control Unit (pump) and a Disposable Collection Kit, which includes a redressing kit, for drainage of recurrent and symptomatic malignant ascites as well as recurrent and symptomatic pleural effusions. The Passio pump is attached to an implanted Passio catheter using the disposable collection kit and is activated to begin the evacuation of fluid into the collection bag. The Passio catheter is exclusively designed for use with the Passio collection system. Passio provides flow control throughout the therapy at lower vacuum pressures than competitive devices on the market today.

Read more: New Wearable to Assess Lung Function

"We are very excited for the expanded indication so that we can now offer Passio to more patients dealing with these difficult diagnoses," said Jay Zimmerman, President of Bearpac Medical.

About Bearpac Medical

Bearpac Medical is a privately held medical technology company headquartered in New Hampshire, focused on the development of novel thoracic drainage products to improve the lives of patients experiencing pleural effusions.

According to a study published in JMIR, a Virtual Reality therapy program reduces pain intensity up to six months later when compared to a dummy app.

The RelieVRx system, formerly known as EaseVRx, was utilized in the trial, which was sponsored by AppliedVR, to evaluate the long-term efficacy of the treatment for individuals with chronic lower back pain (CLBP). It was a follow-up to previous studies comparing the immersive eight-week program against a 2D mock experience just after treatment.

188 individuals received surveys from the researchers before, during, and after the treatment period of one, two, three, and six months. Six months following the therapy, they discovered that the VR group had a mean percentage change in pain intensity of -31.3%, while the sham group had a mean percentage change of -15.9%. While 25% of the sham group and more than half of the VR group passed the criterion for moderate clinical meaningfulness, respectively, reports MobiHealthNews.

Only 13.2% of the sham group attained substantial clinical meaningfulness, compared to 38% of the RelieVRx cohort. The VR intervention reduced pain-related disruptions to activity, stress, and sleep, according to the study. While there were statistically significant variations in physical function and sleep disturbance between the two groups, these changes lacked clinical significance.

"Combined, the results support the 6-month analgesic efficacy of a fully automated, 8-week, home-based VR program for CLBP," the study's authors wrote. "Recent meta-analyses of VR noted a lack of high-quality efficacy studies for chronic pain, except for those involving physical rehabilitation programs. To our knowledge, our investigations on the extended efficacy of VR are the first involving home-based pain management without physical rehabilitation."

The study's shortcomings, according to the researchers, include the individuals' modest levels of depressive symptoms and its dependence on self-reported results. Despite being double-blind, the majority of participants were able to determine which group they belonged to, indicating that the blinding may not have been effective.

Read more: Partnership for VR Therapeutic Trial

Additionally, the sample consisted primarily of white female participants with some college education, thus others from different backgrounds might not find it useful. Researchers did, however, look into whether individuals' engagement was impacted by their socioeconomic position (SES).

"While our examination of the impact of SES on user engagement is preliminary and may be subject to selection bias, we found equivalent engagement between lower and higher SES individuals with EaseVRx. These data potentially refute a perception that a high-tech digital treatment, such as VR, may be infeasible in lower SES individuals and suggest that digital therapeutics, like EaseVRx, represent an opportunity to reach CLBP patients in historically underserved areas," the researchers wrote.

After a notable uptick in AI's use in healthcare in 2023, stakeholders anticipate even more widespread use of the technology in 2024 across a range of industries, from consumer loneliness to physician burnout relief through physician-facing technologies. Digital health industry leaders shared with MobiHealthNews that they believe Artificial Intelligence will have the biggest impact on healthcare in 2024.

Neil Patel, head of new ventures at Redesign Health: "At the enterprise level, uncertainty around OpenAI's future may lead to organizations taking a step back to develop an AI strategy that isn't so dependent on a single platform–analogous to the multi-cloud strategy discussion. From a use case perspective, until more traceability and verification for AI-generated outputs and regulation catches up, AI will be pointed at administrative and operational use cases vs. clinical and patient-facing ones."

Doug Hirsch, Co-founder and Chief Mission Officer at GoodRx: "This year, we saw AI, ChatGPT, and VR dominate tech conversations. And I’m sure we’ll continue to see consumers and the health system embrace these solutions in some way, shape, or form next year. But I really think the industry should prioritize applying the technology that solves our most fundamental healthcare challenges.

That doesn’t necessarily mean we need the flashiest technology. In fact, the shiniest solutions often are not immediately scalable, and therefore, their promise to better our healthcare system lies multiple years down the road. My hope is we’ll see more smart applications of AI that increase transparency within the healthcare system."

Read more: Medtronic and Cosmo Partner Up for AI-driven Care

Kourosh Davarpanah, CEO and Co-founder of Inato: "In 2024, we will see an unusually swift adoption of AI at all levels of the healthcare industry. This trend is already evident in the biopharma industry. Traditionally a slower adopter, biopharma is already using AI at scale from drug discovery to portfolio management, all the way to clinical trial design and delivery."

Matthew Stoudt, Co-founder and CEO of AppliedVR: "We are entering the Cambrian explosion of AI in healthcare. Using algorithms to better respond to individual patients and personalize care will be a new frontier for AI, and in VR, there are opportunities to deliver AI-driven one-to-one and group therapy sessions as well as precision VR therapy based on each person's biofeedback data. I'm excited to see the impact AI will make across the ecosystem."

Amit Khanna, Senior Vice President and General Manager of Health at Salesforce: "My prediction is that generative AI will transform healthcare, fundamentally changing the cost trajectory of the industry. GenAI will be used for a number of things, including creating efficiencies in claim management and summarization, turning unstructured data into insights, and spotting trends/patterns to better predict at-risk patients. It will also be applicable in the life sciences industry, accelerating clinical trials, including the trial recruitment and enrollment process, such as identifying eligible participants and matching them with the right sites to reduce drop off in a clinical trial study."

DPVR, the pioneering force in the Virtual Reality industry, announced a strategic collaboration with Schenker Technologies, a prominent provider of IT and XR hardware and accessories operating throughout Europe. The partnership aims to bring DPVR's gaming headset E4 to a broader audience through Schenker's e-commerce platform.

DPVR has consistently remained at the forefront of the VR device design and manufacturing sector, delivering innovative tethered and wireless VR headsets that cater to diverse industries. From education and training to simulation and entertainment, DPVR’s VR solutions have been transforming the way businesses and organizations engage with immersive technology, reports DPVR.

Schenker Technologies, based in Leipzig, Germany, is renowned for its comprehensive range of IT and XR products and services. With an emphasis on Augmented and Virtual Reality technologies, the company’s expertise spans production, storage, distribution, and expert trilingual customer support. Their locally manufactured, freely configurable laptops and desktop PCs under the brands XMG and SCHENKER have received numerous accolades from industry media for their performance and cutting-edge components.

The e-commerce platform bestware.com, complements its existing product range with a carefully curated selection of top-tier products from leading manufacturers, along with the bestware.com laptop and desktop PC configurator.

By combining their strengths, DPVR and Schenker Technologies aim to make DPVR E4 easily accessible to consumers across Europe. DPVR’s innovative technology, when paired with Schenker’s seamless distribution and support capabilities, is set to revolutionize the virtual reality landscape in the region.

Read more: New Partnership Aims to Detect Brain Disorder Using Virtual Reality

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Key Benefits of the Collaboration

• ‍Expanded Reach: The E4 headset will now be available to a wider European audience through Schenker’s thriving e-commerce platform.‍
• Comprehensive Support: Schenker Technologies’ expertise in customer service and support will further enhance the overall VR experience for users, guaranteeing a seamless and satisfying journey with DPVR E4.

“We are thrilled to collaborate with Schenker Technologies to introduce our VR headset E4 to a broader audience in Europe,” said Derek Liu, VP of DPVR. “This partnership signifies a major stride in making immersive technology more accessible and allowing users to explore the endless possibilities of Virtual Reality.”

“We are excited to welcome DPVR to our bestware.com platform,” stated Tom Neubert, Sr. Product Manager XR at Schenker Technologies. “The addition of DPVR E4 aligns perfectly with our commitment to offering the most innovative and sought-after products to our customers, ensuring they have access to the very best in Virtual Reality technology.” With DPVR’s innovative Virtual Reality technology and Schenker Technologies’ established presence in the European market, the collaboration promises to reshape the way people interact with VR content and brings immersive experiences to new heights.

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About DPVR

DPVR is an innovative Shanghai-based technology company specializing in VR device design and manufacturing. With a diverse portfolio of tethered and wireless VR headsets, DPVR caters to numerous industries, unlocking transformative solutions for education, training, simulation, and entertainment domains. DPVR proudly provides fully customizable VR solutions tailored to meet the dynamic immersive technology requirements of modern enterprises.

About Schenker Technologies

Schenker Technologies is a Leipzig-based company operating throughout Europe as a provider of IT hardware and accessories, distribution services, and the latest in Augmented and Virtual Reality technologies. With around 120 employees, the company offers a comprehensive range of activities, from production and storage to service, support, and administration. Schenker Technologies prides itself on being an innovative trendsetter, using its distribution experience to provide the European market with the world’s most interesting new technologies and custom solutions.

LetinAR Inc., a developer of optical solutions for Augmented Reality (AR) smart glasses, announced that, at the CES 2024 in Las Vegas, USA, to be held between January 9-12, it will be releasing its PinTILT lens, which brings AR optics to the next level and successful commercialization cases with its global customers including Jorjin, Nimo, and others.

As a developer of optical systems for AR smart glasses, LetinAR introduced its PinTILT technology at the CES for the last seven consecutive years. LetinAR drew the attention of global companies as it was recognized for having overcome the performance limitations of the existing AR optical system on the back of its unique and practical technology. LetinAR releases its FrontiAR Pro optical system based on PinTILT technology at CES 2024, which resolves technological barriers and elevates the optical system to the next level.

The strongest feature of the FrontiAR Pro lens is that it overcomes the issue of brightness uniformity, which has been the greatest challenge to existing PinMR (Pin Mirror) AR optical systems. The brightness uniformity, which was previously limited, has been improved, thereby enhancing performance by approximately three times. On top of that, the image quality, an existing strength, has been further improved so that it can be easily worn like regular glasses.

At CES 2024, visitors can experience an ultra-high definition, immersive AR demonstration, which is developed based on the PinTILT AR optical system. The global customers of LetinAR, mainly Jorjin, a leading XR device manufacturer with more than ten years of experience, introduce J8L Glasses, optimized for spatial experiences based on the LetinAR FrotinAR Pro (Formerly B42) optical system. Nimo, the developer of the World's First Spatial Computer for Productivity, launches Nimo One, also equipped with the LetinAR FrotinAR Pro optical system. Additionally, more customers of LetinAR from America and Asia will launch their successful productization cases onsite. All visitors are welcome to experience all the glasses.

The company and its customers plan to exhibit interactive, responsive content that provides the first-hand experience of immersive spatial content. Users may also test demonstrations in the form of goggles, giving users the experience of wearing helmets such as Ironman's Jarvis or those worn by F-35 fighter plane pilots. By combining the Generative AI function, Nimo is planning to demonstrate Nimo Glasses, Nimo Core, and OS which are designed for Spatial Productivity and fit in our Pocket. Also receiving the spotlight is Jorjin's J8L Glasses, which enables an immersive Metaverse experience utilizing 9-Axis IMU and AI recognition software.

Jaehyeok Kim, CEO of LetinAR, says, "It was LetinAR's strong technological base that enabled us to not only overcome the limitations of the existing AR optical system but also to overcome the vertical viewing angle issue, which has been regarded as a major technological challenge", and added that "It is glad to demonstrate diverse smartglasses launched by our global customers all around the world at the CES 2024."

Lerdah Wang, General Manager of Jorjin, says, "We're delighted to say that Jorjin's J8L AR smart glasses powered by outstanding PinTILT technology from LetinAR can bring users an incredible experience in special field applications.", and "The slim design and lightweight can fit for wearing for a long time. With gesture recognition, the human-computing interaction is intuitive and can be used in a wide range of fields such as smart manufacturing, smart showroom, city touring, immersive collaboration and education, and smart medical applications for augmented upgrading and digital transformation."

About LetinAR

Founded in 2016, LetinAR, a company operating in the AR scene, presents a new paradigm-changing technology - PinTILT lens. This technology was developed mainly to redress common failings found in current products; heavy and expensive hardware, and deficient functions that inhibit the construction of real eyeglasses-shaped designs and render wearability and usability mediocre at best. Since its inception in 2016, LetinAR with PinTILT technology has been in the global spotlight during the previous CES and MWC.

Engineers at Duke University and Harvard Medical School have developed a biocompatible ink that solidifies into different 3D shapes and structures by absorbing ultrasound waves. Because it responds to sound waves rather than light, the ink can be used in deep tissues for biomedical purposes ranging from bone healing to heart valve repair.

The uses of 3D-printing tools are ever-increasing. Printers create prototypes of medical devices, design flexible, lightweight electronics, and even engineer tissues used in wound healing. However, many of these printing techniques involve building the object point-by-point in a slow and arduous process that often requires a robust printing platform, reports Duke University.

To circumvent these issues over the past several years, researchers developed a photo-sensitive ink that responds directly to targeted beams of light and quickly hardens into a desired structure. While this printing technique can substantially improve the speed and quality of a print, researchers can only use transparent inks for the prints, and biomedical purposes are limited, as light can’t reach beyond a few millimeters deep into the tissue.

Now, Y. Shrike Zhang, associate bioengineer at Brigham and Women’s Hospital and associate professor at Harvard Medical School, and Junjie Yao, associate professor of biomedical engineering at Duke, have developed a new printing method called deep-penetrating acoustic volumetric printing, or DVAP, that resolves these problems.

This new technique involves a specialized ink that reacts to sound waves rather than light, enabling them to create biomedically useful structures at unprecedented tissue depths.

Read more: Silicone 3D Printing Paving the Way for Soft Robotics and Wearables

"DVAP relies on the sono-thermal effect, which occurs when soundwaves are absorbed and increase the temperature to harden our ink," explained Yao, who designed the ultrasound printing technology for DVAP. "Ultrasound waves can penetrate more than 100 times deeper than light while still spatially confined, so we can reach tissues, bones, and organs with high spatial precision that haven’t been reachable with light-based printing methods."

The first component of DVAP involves a sonicated ink, called sono-ink, that is a combination of hydrogels, microparticles, and molecules designed to specifically react to ultrasound waves. Once the sono-ink is delivered into the target area, a specialized ultrasound printing probe sends focused ultrasound waves into the ink, hardening portions of it into intricate structures. These structures can range from a hexagonal scaffold that mimics the hardness of bone to a bubble of hydrogel that can be placed on an organ.

"The ink itself is a viscous liquid, so it can be injected into a targeted area fairly easily, and as you move the ultrasound printing probe around, the materials in the ink will link together and harden," said Zhang, who designed the sono-ink in his lab at the Brigham. "Once it’s done, you can remove any remaining ink that isn’t solidified via a syringe."

"Because we can print through tissue, it allows for a lot of potential applications in surgery and therapy that traditionally involve very invasive and disruptive methods," said Yao. "This work opens up an exciting new avenue in the 3D printing world, and we’re excited to explore the potential of this tool together."

A variation of sonar technology – in miniature form, developed by Cornell University researchers – is proving a game-changer in wearable body-sensing technology.

PoseSonic consists of off-the-shelf eyeglasses outfitted with micro sonar that can track the wearer’s upper body movements in 3D through a combination of inaudible sound waves and artificial intelligence (AI). With further development, researchers believe it could enhance augmented reality (AR) and virtual reality (VR) and track detailed physical and behavioral data for personal health, reports EurekaAlert.

“We’re the first research group using inaudible acoustics and AI to track body poses through a wearable device,” said Cheng Zhang, assistant professor of information science. “By integrating cutting-edge AI into low-power, low-cost, and privacy-conscious acoustic sensing systems, we use less instrumentation on the body, which is more practical, and battery performance is significantly better for everyday use.”

PoseSonic has two pairs of tiny microphones and speakers – each about the diameter of a pencil – attached to the hinges of eyeglasses. The speakers emit inaudible sound waves that bounce off the upper body and back up to the microphones, generating an echo profile image. This image is then fed into PoseSonic’s machine-learning algorithm, which estimates the body pose with near-perfect accuracy. And unlike other data-driven, wearable pose-tracking systems, PoseSonic functions well without an initial training session with the user, the researchers said.

Read more: Wearable Utilizes Temperature for Wellness Applications

The system can estimate body movements made at nine body joints, including the shoulders, elbows, wrists, hips, and nose, which is useful to estimate head positioning, researchers mentioned.

The technology is a major step up from existing wearable devices that often require a mini video camera, which isn’t always practical. Current wearables with video cameras also require significant battery power, the researchers said. Acoustic sensing requires minimal power – 10 times less than a wearable camera. Because of this, the technology makes for a much smaller and unobtrusive wearable.

Further, there’s much less privacy risk with sonar. “A wearable video camera poses privacy risks for anyone in the wearer’s vicinity,” said Saif Mahmud, a doctoral student in the field of information science. “Our solution: Let’s put a little inaudible acoustic field around us that can track our body’s movement while also respecting other people’s privacy.”

This research is supported by the National Science Foundation.

During even the most routine visits, physicians listen to sounds inside their patients’ bodies - air moving in and out of the lungs, heartbeats, and even digested food progressing through the long gastrointestinal tract. These sounds provide valuable information about a person’s health. When these sounds subtly change or downright stop, it can signal a serious problem that warrants time-sensitive intervention.

Now, Northwestern University researchers are introducing new soft, miniaturized wearable devices that go well beyond episodic measurements obtained during occasional doctor exams. Softly adhered to the skin, the devices continuously track these subtle sounds simultaneously and wirelessly at multiple locations across nearly any region of the body.

The new study was published in the journal Nature Medicine.

In pilot studies, researchers tested the devices on 15 premature babies with respiratory and intestinal motility disorders and 55 adults, including 20 with chronic lung diseases. Not only did the devices perform with clinical-grade accuracy, but they also offered new functionalities that have not been developed nor introduced into research or clinical care, reports Northwestern University.

“Currently, there are no existing methods for continuously monitoring and spatially mapping body sounds at home or in hospital settings,” said Northwestern’s John A. Rogers, a bioelectronics pioneer who led the device development. “Physicians have to put a conventional, or a digital, stethoscope on different parts of the chest and back to listen to the lungs in a point-by-point fashion. In close collaborations with our clinical teams, we set out to develop a new strategy for monitoring patients in real-time on a continuous basis and without encumbrances associated with rigid, wired, bulky technology.”

“The idea behind these devices is to provide highly accurate, continuous evaluation of patient health and then make clinical decisions in the clinics or when patients are admitted to the hospital or attached to ventilators,” said Dr. Ankit Bharat, a thoracic surgeon at Northwestern Medicine, who led the clinical research in the adult subjects. “A key advantage of this device is to be able to simultaneously listen and compare different regions of the lungs. Simply put, it’s like up to 13 highly trained doctors listening to different regions of the lungs simultaneously with their stethoscopes, and their minds are synced to create a continuous and dynamic assessment of lung health that is translated into a movie on a real-life computer screen.”

Comprehensive, non-invasive sensing network

Containing pairs of high-performance, digital microphones and accelerometers, the small, lightweight devices gently adhere to the skin to create a comprehensive non-invasive sensing network. By simultaneously capturing sounds and correlating those sounds to body processes, the devices spatially map how air flows into, through, and out of the lungs as well as how cardiac rhythm changes in varied resting and active states, and how food, gas, and fluids move through the intestines.

Read more: Oura, WHOOP, BioStrap, and BioIntelliSense Invading Health Monitoring Space with Biometric Wearables

Encapsulated in soft silicone, each device measures 40 millimeters long, 20 millimeters wide, and 8 millimeters thick. Within that small footprint, the device contains a flash memory drive, tiny battery, electronic components, Bluetooth capabilities, and two tiny microphones - one facing inward toward the body and another facing outward toward the exterior. By capturing sounds in both directions, an algorithm can separate external (ambient or neighboring organ) sounds and internal body sounds.

Not only does capturing ambient noise enable noise canceling, but it also provides contextual information about the patients’ surrounding environments, which is particularly important when treating premature babies.

Non-obtrusively monitoring babies’ breathing

In collaborative studies conducted at the Montreal Children’s Hospital in Canada, healthcare workers placed the acoustic devices on babies just below the suprasternal notch at the base of the throat. Devices successfully detected the presence of airflow and chest movements and could estimate the degree of airflow obstruction with high reliability, therefore allowing the identification and classification of all apnea subtypes.

“When placed on the suprasternal notch, the enhanced ability to detect and classify apneas could lead to more targeted and personalized care, improved outcomes, and reduced length of hospitalization and costs,” said Dr. Wissam Shalish, a neonatologist at the Montreal Children’s Hospital and co-first author of the paper. “When placed on the right and left chest of critically ill babies, the real-time feedback transmitted whenever the air entry is diminished on one side relative to the other could promptly alert clinicians of a possible pathology necessitating immediate intervention.”

Tracking infant digestion

In the study, premature babies wore sensors at four locations across their abdomen. Early results aligned with measurements of adult intestinal motility using wire-based systems, which is the current standard of care.

“When placed on the abdomen, the automatic detection of reduced bowel sounds could alert the clinician of an impending (sometimes life-threatening) gastrointestinal complication,” Shalish said. “While improved bowel sounds could indicate signs of bowel recovery, especially after a gastrointestinal surgery.”

Mapping a single breath

Accompanying the NICU study, researchers tested the devices on adult patients, which included 35 adults with chronic lung diseases and 20 healthy controls. In all subjects, the devices captured the distribution of lung sounds and body motions at various locations simultaneously, enabling researchers to analyze a single breath across a range of regions throughout the lungs.

“Lungs can make all sorts of sounds, including crackling, wheezing, rippling, and howling,” Bharat said. “It’s a fascinating microenvironment. By continuously monitoring these sounds in real-time, we can determine if lung health is getting better or worse and evaluate how well a patient is responding to a particular medication or treatment. Then we can personalize treatments to individual patients.”

Dain Leaders, an Edutech company, is expanding its scope of content business to actively respond to the increasing metaverse market demand and lead the digital transformation in the medical, educational, and public sectors.

Having provided a learner-oriented education environment and unique learning content utilizing VR content since 2020, Dain Leaders signed license partner agreements for the metaverse platform with Unity Korea and Unity Starter Editor. This way, Dain Leaders presents a new type of learning model of the future by providing VR/AR content to the education/public sectors in Korea and establishing a content creation ecosystem with learner and teacher participants.

Dain Leader's major product, 'HAIO (Hospital All In One)' is a VR solution with voice recognition and hand-tracking technologies tailored for contactless practice training at the medical and nursing colleges after the outbreak of COVID-19. The basic episode of HAIO is the CPR practice to save an unconscious drowning patient transferred to a hospital. Learners need to be able to respond to the emergency at the virtual emergency room where they can immerse themselves into the training environment replicating an actual hospital setting, which is different from the general training session at universities.

In the HAIO, virtual characters immediately react to the participant's order through voice recognition. The learners can join the drill to learn how to control the emergency in a simulated environment. They can control the situation by moving with their hands instead of using a controller with recognition technology of hand joints, which frees them from putting on and off the HMD to learn and locate the controller buttons.

Read more: Partnership for VR Therapeutic Trial

To be sure, theory is important but onsite experience is significantly important in the medical site. This requires enough training sessions, but it's difficult to get sufficient clinical practice due to the human rights issue. The HAIO adds a mood of real-life places at hospitals into the medical training such as a virtual ER, which cannot be experienced in universities. In this regard, the HAIO is expected to be a perfect solution to make up for an offline practice environment which is still unattainable in today's training sessions.

Dain Leaders holds six patents related to VR and AR including user-location-based technology, hand tracking, and voice recognition technologies, and it has engaged in technology development by participating in various government R&D content projects. Currently, Dain Leaders mainly runs hand-tracking-based VR content for medical training and motion-recognition-based AR mobile content as its core business.

"For the HAIO, faculty members of medical and nursing colleges participated in the content's development, and medical major students evaluated and verified the solution; therefore, the training program complies with the accurate medical procedures and methods," said Changbae Lee, Head of Contents Business Division at Dain Leaders.

Flexcon Global is a leader in coated and laminated films and adhesives used as functional components in manufactured goods and graphics applications. As a material science company, Flexcon serves as a technology partner to innovators around the world.

Flexcon has commercialized Flexcon^® Omni-Wave^™ Signal Receptive Media Components, a revolutionary biosensing technology that eliminates the need for hydrogel in medical diagnostic and therapeutic wearable devices.

Omni-Wave^™ technology uses a skin-friendly, medical grade conductive adhesive that requires no hydrogel or Ag/AgCl to get a signal. Omni-Wave^™ is suitable for diagnostic applications such as EKG and sEMG and can distinguish between sympathetic and parasympathetic responses for EDA applications. It is also appropriate for therapeutic applications such as TENS and NMES if a secondary repositionable adhesive is used as a part of the electrode design.

Awarded multiple patents as well as the 2023Med-Tech Award for Materials Innovation, this non-hydrogel “dry” technology combines capacitive and resistive materials to achieve optimal biosignal sensing. Independent clinical studies have shown that the performance of
Omni-Wave^™ components is equivalent to hydrogel-based diagnostic and therapeutic devices. Furthermore, performance is not affected by humidity, allowing patients to shower, bathe, and exercise normally. Omni-Wave^™technology passes ISO 10993-10 for sensitization and irritation and is AAMI compliant. It is an approved component in customer 510(k) and CE marked finished good medical devices.

No hydrogel means a reduced chance of skin irritation for patients who are sensitive to hydrogel. In addition, Omni-Wave^™ offers a cost-savings for medical device manufacturers and converter/fabricators. Savings are realized via fewer changeovers, no special handling, no requirement for expensive barrier packaging, and longer out-of-pack life.

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“This is a disruptive technology that will enable medical device manufacturers to differentiate their product offering without sacrificing performance while providing an improved experience for patients with hydrogel allergies,” says Kelly Johnson, Product Manager - Healthcare, Flexcon. “Processing efficiencies, elimination of expensive barrier packaging as well as a 4X longer material shelf life are added bonuses.”

Omni-Wave^™ is in stock and ready to be licensed to OEMs for incorporation to finished devices.

Visit our website for more information, to request samples, or to connect with a specialist.

Movano Health, a pioneer in health technology, announced that following the successful results of its recent blood pressure clinical trial it will be holding in-person demonstrations of live waveforms at the 2024 CES Show in Las Vegas.

Designed to showcase Movano Health's System on a Chip (SoC) and illustrate the strategic ways this technology can be implemented to monitor multiple chronic conditions, these events will be an opportunity for prospective partners to experience the efficacy of the recent clinical trial results and, if desired, under NDA review the development roadmap.

"The response to our recent blood pressure clinical trial results has far exceeded our expectations and as we transition to the next phase of development including undergoing critical pivotal trials, we believe it is the right time to open up the conversation to potential partners," said Michael Leabman, CTO and Founder of Movano Health. "Our goal is to significantly accelerate the development and commercialization of this technology and help millions of people as quickly as possible."

During the recent trial, Movano Health's cuffless prototype showed a level of accuracy within the standards recognized by the FDA for blood pressure monitoring devices. The prototype achieved an overall mean absolute difference (MAD) of 5.9 mmHg, which is below the 7 mmHg MAD required per a standard for wearable, cuffless blood pressure measuring devices (IEEE1708a-2019). Movano Health is also evaluating AI-based individual calibration methods to further enhance the future performance of the device.

Read more: Blood Pressure Measuring E-Tattoo

Movano Health's ultra-compact System-on-a-Chip (SoC) measures just 4x6.7mm and is the culmination of five years of intensive research, centering on advanced mmWave Radio Frequency (RF) and AI technology, leading to 23 issued patents and 31 pending.

"Blood pressure monitoring will be a significant addition to the suite of analytes we currently offer in our recently launched product, the Evie Ring", said John Mastrototaro, CEO of Movano Health. "We are excited to continue to build a robust data collection and evaluation solution to help people take better care of their overall health."

About Movano Health  

Founded in 2018, Movano Health is developing a suite of purpose-driven healthcare solutions to bring medical-grade, high-quality data to the forefront of consumer health devices. Featuring modern form factors, Movano Health's devices capture a comprehensive picture of a person's vital health information and uniquely translate the data into personalized and intelligent insights that empower consumers to live healthier and more balanced lives. Movano Health's end-to-end solutions will soon enable consumers and their healthcare professionals to utilize daily medical-grade data as a tool to proactively monitor and manage health outcomes.

When using smart glasses and AR headsets, augmented reality accessories are handy tools, extras, and add-ons that improve the user experience.

The augmented reality industry is expected to expand to a value of $1,109.71 billion by 2030, which is driving up demand for these solutions. AR accessories do more than just allow enthusiasts to customize their experiences. They can also enhance the performance, comfort, and utility of cutting-edge AR technologies, reports XRToday.

Today, we're going to examine some of the most remarkable and expensive augmented reality add-ons, perfect for both home and office use.

Explore these 5 stunning AR accessories

There are many various kinds of augmented reality accessories. Certain solutions, like keeping gadgets charged and ready for use, are straightforward and made to solve common issues. For example, Microsoft provides HoloLens 2 USB chargers, and other suppliers provide whole charging stations.

Some are more developed than others. For example, as Apple makes investments in the XR space with Vision Pro and VisionOS, there are reports that it may start integrating AR solutions into its Airtag products.

These are only a few of the augmented reality accouterments that we now suggest taking into account.

1. Wearables and Haptic Gloves: In recent years, there has been less of a buzz around haptic technologies, which may simulate physical feelings for users of virtual reality. These add-ons, though, might be useful in some situations. Accessories like belts, body suits, and haptic gloves can change how we interact with digital content. These augmented reality accessories have enormous potential to foster innovation and cooperation, especially in the corporate and enterprise context. Better training simulations can be made possible by enabling users to "feel" what they're dealing with in a virtual or augmented reality environment. Recently, Fluid Reality unveiled an improved pair of haptic feedback gloves that work with various headsets.

Read more: Facebook’s New Wrist-Based Wearable Lets You Interact With Augmented Reality

2. Accessory for Audio Augmented Reality: AR and spatial computing frequently go hand in hand. This is especially important today that tech giants like Apple are utilizing the extensive potential of spatial systems to improve their headsets. Spatial sound is one developing area of spatial computing. Spatial audio technologies are already included in a lot of AR headsets and smart glasses. With these tools, users can better immerse themselves in VR by placing sound wherever it makes the most sense.

3. Advanced Controllers: Controllers are not as ubiquitous in the AR accessory market as they are in the VR market. A large number of the best augmented and mixed reality headsets don't even need physical controls. Hand and eye tracking is used by the Microsoft HoloLens 2 and Apple Vision Pro to process user input. Still, there are controllers available that can improve the user experience. You can have more control over the information on your Mac devices by utilizing Apple's VisionPro service.

4. Adaptable Lenses: Making sure AR, VR, and MR headsets adjust to users' visual needs is one of the main issues facing users who adopt these headsets. The whole experience is less comfortable when wearing smart glasses or regular spectacles underneath an AR headset. This has forced businesses to invest in products that let consumers replace the lenses in their smart glasses with ones that are more suited to their particular vision requirements. Meta and Zenni have joined to provide customers in the VR realm with personalized prescription lenses.

5. Sturdy Headbands: Robust head straps are among the best AR accessories designed especially for larger AR/VR or MR headsets. They provide several advantages to users. By preventing slippage and needless pressure on the head and face, they guarantee users receive the optimal fit from their wearable technology. For the HoloLens 2, Microsoft unveiled a premium overhead strap that should improve headset comfort when worn for extended periods.

For stroke victims and other "locked-in" individuals who are unable to communicate through traditional channels, there might be new hope. It takes the shape of the novel BrainGPT technology, which is still in the early stages and can read users' thoughts and translate them into legible text.

In addition to being unable to speak, paralyzed people in a locked-in state are also unable to communicate via hand or head movements. While some of them can move their eyes to use eye-tracking communications systems, others are not even able to do so, reports NewAtlas. The mind reading cap is being developed by Technology Sydney in Australia. It could one day help people unable to speak due to illness or injury, while also providing a way for humans to interact directly with machines.

In other words, the AI-based algorithms at DeWave discovered which particular EEG patterns correlated with which textual words and sentences. It recognized that the user was thinking the appropriate word or phrase - or at least, it frequently did - when it later picked up those signals while the user was not reading the text.

Read more: MIT Researchers Develop Touch-Sensing Glove that May Help in Stroke Recovery

As a gauge of machine translation accuracy, the system currently has a translation score of roughly 40% on the BLEU(BiLingual Evaluation Understudy) scale. That being said, the team intends to increase that percentage to roughly 90% after additional technological advancements.

During the cap tests, subjects were instructed to read text passages silently while their electrical brain activity was monitored with an electroencephalogram (EEG). Next, with an accuracy of 40–60%, an artificial intelligence model named DeWave was employed to translate the ideas into written language.

"This research represents a pioneering effort in translating raw EEG waves directly into language, marking a significant breakthrough in the field," said the lead scientist, Prof. C.T. Lin. "It is the first to incorporate discrete encoding techniques in the brain-to-text translation process, introducing an innovative approach to neural decoding."

Garmin announced the eTrex Solar, an easy-to-use GPS handheld that utilizes solar power to go the extra mile. The latest iteration in the tried-and-true eTrex series offers solar charging that can provide infinite battery life for hikers, geocachers, and off-the-grid adventurers. Enjoy the outdoors longer and take the road less traveled with the eTrex Solar in hand; users can view waypoints, track their location, and find their way back to favorite spots on the 2.2-inch high-contrast display that’s easy to read, even in bright sunlight.

“For over two decades, our iconic eTrex series has been known for its revolutionary features and capabilities, making it wildly popular among our customers. Adding infinite battery life through our solar-charging technology is just the latest example of the innovation we strive to provide in each of our outdoor products. From a short hike to living off the grid, the eTrex Solar is the perfect companion for your next outdoor adventure,” said Dan Bartel, Garmin Vice President of Global Consumer Sales.

Infinite battery life

Utilizing Garmin’s solar technology, eTrexSolar can offer unlimited battery life so users can stay on the trail longer without recharging their devices. Those adventurers won’t need to plan a stop to refresh their battery on a day-long expedition; the sun can do the work for them. The solar capabilities can not only keep a battery fully charged, it can also help rejuvenate a low-charged battery.

Even without the embedded solar charging the eTrex Solar can run for up to 1,800 hours in Expedition mode, allowing users to do what they love longer.

Read more: Garmin Enduro to the Test: This is Garmin’s Most Advanced Smartwatch

Stay up-to-date with the Garmin Explore

When paired with a compatible smartphone, eTrex Solar users can access the Garmin Explore app to stay connected and informed, even when traversing off-grid areas.

• Cloud backup: Use unlimited cloud storage to make all mapping and trip data easy to review, save, and share.
• Plan ahead: Devise the next day’s travel plan by creating routes on the app and then sync them to the handheld.
• Smart notifications: Remain connected when exploring remote areas with smart notifications for text messages, phone calls, and more when paired with a compatible smartphone.
• Geocaching Live: Receive automatic cache updates, including descriptions, logs, and hints. Each Find will instantly upload to a saved profile when connected to the app.
• Weather forecasts: Stay aware of impending weather with real-time forecast information when paired with a compatible smartphone.

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Find the right path

Thanks to multi-band GPS, the eTrex Solar has superior positional accuracy to track in more challenging environments than GPS alone. The multi-band support can provide hikers and other adventurers with location accuracy and positioning to their waypoints. Like previous models in the series, the eTrex Solar also features a digital compass, which can provide an accurate heading even when standing still – another tool to help explorers find their way. And with an IPX7 rating, it’s ruggedly designed and purpose-built to withstand harsh environments.

Available now, the eTrex Solar handheld has a suggested retail price of $249.99.

Reelables announced the launch of its new 5G Smart Labels, the only printable 5G label solution in the world for logistics providers, cargo forwarders, and retailers to track shipments at the piece level as they move through the supply chain. For the very first time, the label itself functions as the tracking device connected to a cellular network. It's also an industry-first in the field of printed electronics to fabricate an active LPWAN device with coated zinc batteries that share a common paper-thin-wireless circuit. Reelables has achieved the ability to mass manufacture the smart label so thin and flexible that it can be printed in volume from off-the-shelf barcode printers, finally allowing precise piece-level tracking of billions of shipments.

The pandemic put a great strain on thes upply chain and demonstrated the need for better visibility to prevent fraud, loss, and missing items. In 2022, a global report indicated that nearly one in 10 consumers suffered parcel theft or loss during a 12-month period, equating to more than one billion packages.

Until now, tracing goods as they move through the supply chain has largely been a black box. Barcodes require manual scanning, and shipment information may need to be entered by hand at various points in the supply chain, both leading to potential human error. The result is often a mismatch between the record of information and reality. A worker could simply miss a scan or steal a package. If that’s a box of pharmaceuticals or high-value goods, it becomes a very costly problem. Legacy GPS tracking devices are not a great alternative either as they are expensive, necessitate out-of-process workflows, and require reverse logistics.

Reelables labels automatically collect actual location data from the cellular network data and trigger events the moment a shipment arrives or departs a warehouse or waypoint, or an exception is detected. They also generate inventory counts, providing a complete warehouse audit nearly every minute or less. With Reelables, logistics providers and end users, such as retailers and manufacturers, know in real time where every piece-level item is in the supply chain with 100% accuracy.

How the 5G Smart Label Works

The underlying technology is a reel-to-reel, thin-film manufacturing process that enables Reelables to make ultra-thin and extremely cost-efficient wireless circuits into smart labels. The initial offering is a chipset-level integration of NB-IoT, with LTE-M to soon follow as part of the 5G family of LPWAN technologies.

Reelables is the first to bring to market a printable, cellular label that is so thin and flexible, that it can be printed on like ordinary labels in thermal barcode printers. The magic happens in thermal barcode printers, capable of activating and provisioning the labels at scale, without pressing buttons or cutting to activate. That means it can be used wherever shipping labels are already being printed, by just changing standard label media to Reelables. No new workflows or processes, or training is needed.

Read more: Biodegradable Printed Paper Batteries for Medical Wearables

A key part of the core technology is the integration of a coated zinc battery on the exact same substrate shared with a wireless circuit. That’s what enables the thin and flexible form-factor of the smart label and its thermal printability. This is a big differentiator for Reelables, compared to companies that are still using conventional lithium batteries in their tracking devices. Lithium is also classified as a dangerous good, which is problematic for high-volume applications and safe air transport.

For manufacturers or retailers who are shipping time-critical, high-value goods, and don’t control the infrastructure along their logistics corridors, Reelables 5G smart label solution is ideal. These businesses are accountable for demonstrating to their customers that items are arriving when they’ve promised.

“This is a major breakthrough when it comes to supply chain visibility and automation,” said Brian Krejcarek, CEO and Co-Founder of Reelables. “Achieving mass production and pervasive deployment of these thin film wireless smart labels will change how businesses track items, reduce theft and loss, and demonstrate accountability to their customers. We are excited to bring this to market now so retailers and manufacturers can start printing these labels at scale and lighting up under-utilized LPWAN network capacity with a killer application: tracking the billions of shipments that are made every year around the world.”

About Reelables

Reelables makes the only printable 5G label available in the world. It is the first company to achieve mass production of a brand-new category of thin film, wireless smart labels with coated batteries that are flexible enough to be printed on in off-the-shelf barcode printers and fully disposable after use. Offering both paper-thin Bluetooth and 5G smart labels, Reelables automates supply chain and logistics visibility at scale for logistics providers, retailers, and manufacturers, providing exact shipment location and inventory counts for each item without the need to manually scan barcodes or read RFIDs. Its ability to track shipments and inventory at the item level helps companies reduce theft and loss and increase accountability.

Leading IoT device and solution provider Queclink proudly celebrates the momentous milestone of their asset tracker, GL300, reaching its 10th anniversary. Since its launch a decade ago, GL300 has renewed the way of tracking with unrivaled precision and efficiency for various businesses and industries. Initially developed and launched in 2013, Queclink's GL300 series took shape from the previous GL100 and GL200 asset trackers and has garnered 2.5 million shipments globally up to this date.

The story of GL300 dates back to as early as 2009 when a group of visionary individuals came together with a shared belief that asset tracking could be simplified, streamlined, and taken to new heights. Under the name of Queclink, they brought their brainchild, the GL100, to life, marking the first step of the company's 15 years of expertise in the IoT industry.

The waterproof, compact tracker was a unique, trailblazing design that quickly garnered attention and demand. It became a sought-after solution used in various applications: the device had been integrated into pet necklaces, kids' backpacks, and the heels of shoes worn by the elderly to track their movements, keep tabs on their whereabouts, and send out timely emergency alerts.

Building on the success of the GL100, the team later introduced the improved GL200. This device became a remarkable success story and soared to the top of Amazon's bestseller list.

The GL300 is a versatile device that can be deployed alongside multiple accessories such as an external battery kit and magnetic waterproof case for expanded usability. Over the past 10 years, the device has become synonymous with reliability, accuracy, and innovation. It has empowered organizations across various industries to provide visibility into assets, people, and vehicles. From small businesses to multinational corporations, GL300 has provided the tools needed to efficiently track and locate, prevent loss or danger, optimize operations, and ensure safety.

Read more: TCL Announces Its First Wearable Display, True Wireless Earbuds and Pet Tracker

With more than 2.5 million devices shipped and deployed, the GL300 Series has seen a loyal user base and numerous application scenarios across the globe. The tracker played a crucial role in saving two Norwegian brothers stranded on a rock after a storm wrecked their boat. It was creatively hidden in sausages by a deli to track and recover stolen goods. In recent years, the device also has found applications in international sports events, including the Olympic Games, as it monitors athletes' well-being during hiking, biking, and sailing and ensures their safety.

"Over the past decade, the GL300 Series has established itself as one of the leading battery-powered asset trackers in the global market," said Manny Hernandez, Vice President of North America at Queclink Wireless Solutions. "We are thrilled to commemorate the 10-year milestone. It represents not only our innovative spirit and commitment to excellence but also the trust and support we have received from our valued customers."

About Queclink

Queclink is a pure-play IoT hardware designer and manufacturer working with many well-known industrial and consumer companies to bring innovative IoT solutions to the market. Its business units span transportation, asset and mobility, networks, and agriculture. With 52 million IoT products delivered to over 140 countries, Queclink inspires data-driven solutions for its worldwide customers.