VivoSense, a data analysis and consulting and software company, has been awarded an NIH/NCI Phase 1 contract to develop software enabling data integration from wearable sensors for cancer patients. The contract will result in the development of the VivoSense Cancer Health Informatics Platform as the leading wearable sensor agnostic cloud platform for cancer research and clinical care.

Read more: Cardiac Insight Partners with VivoSense to Expand the Use of Its Wearable Cardiac Sensors in Clinical Trials and Other Research

"Wearable sensors and digital biomarkers have the potential to revolutionize cancer research and care. Our ten years of wearable sensor analytics experience ideally positions VivoSense to deliver on this award with an innovative cancer-specific analytics platform," stated Kate Lyden, PhD, Principal Investigator and VivoSense' VP of Science and Research.

Wearables Provide New Insight into Cancer Research & Treatment

Although cancer remains one of the most devastating diseases, the past decade has brought enormous progress, particularly in the field of immunotherapy. However, breakthrough cancer therapeutics do not benefit all patients equally. Wearables have created an opportunity to gain more insight into the factors contributing to this outcome. The unprecedented amount of patient-specific, real-world data from wearable sensors opens the door to rethink how clinical trials can advance personalized treatment strategies, says a press release.

Patient monitoring and the precise delivery of cancer care improves outcomes and the management of symptoms and side-effects. With robust wearable sensor solutions, care providers will have the ability to passively and continuously monitor multiple behavioral and biological parameters that can be used to adjust and optimize treatment strategies throughout care. As patients with cancer live longer, it is vitally important to understand and develop treatment regimens that maintain patient quality of life.

A Scalable Data Analysis Platform is Fundamental

The opportunity to translate real-world data into actionable information that advances earlier diagnosis and precise treatment options in cancer patients is a huge step forward for cancer research. With this award, we will engage key opinion leaders at every step and build an end-to-end data informatics platform explicitly designed for cancer research and care communities.

Read more: UTS Researchers Developing Wearable Sensors to Improve Communication Between Human Brains and Robots

VivoSense is a data analysis consulting and software company specializing in wearable sensor physiological monitoring solutions for research and clinical trials. They provide a proven and repeatable approach to clinical research data collection and analysis.

Migraine is the 3rd most prevalent illness in the world. Nearly 1 in 4 U.S. households includes someone with migraine. A 2017 study of more than 15,000 Americans with migraines found that oral medications are helpful, but don’t solve for all migraine symptoms. Neuromodulation is one of the fastest-growing areas of medicine. This therapy may help reduce the severity or frequency of migraine attacks.

Read more: Wearable Sensor Cannot Accurately Detect Migraine Attacks Beforehand, Reveals Small Finnish Study

Neurolief

Neurolief developed Relivion, the first non-invasive, adaptive multi-channel brain neuromodulation technology that offers a highly effective therapy, without any side effects related to medications. The system is comprised of a comfortable and adjustable electronic headset that provides precise modulated pulses simultaneously to six branches of the occipital and trigeminal nerves via several adaptive output channels around the patient’s head. The occipital and trigeminal nerves then conduct the stimulation directly to the brainstem (Trigemino-Cervical Complex –TCC). Prior and existing non-invasive neuromodulation devices for the treatment of migraine stimulate only the trigeminal nerve, treating only part of the brain that triggers migraines. In contrast, the Relivion also modulates the occipital nerves, where the majority of migraines originate. In addition, the sophisticated cloud-enabled system connects to a proprietary mobile phone app that learns over time and in the future will deliver optimized personalized treatment for each patient.

Cefaly

This small external trigeminal nerve stimulation (eTNS) device attaches to the forehead and sends mild electrical pulses to the wearer’s forehead to the location known as the trigeminal nerve, the main area where migraines start. Cefaly does both treatment and prevention. For migraine prevention, you wear it for 20 minutes every night for three months. It can also be used for an hour at the onset of a migraine to reduce the intensity of pain. The device costs about $400, and the electrodes are reusable up to 20 times (new electrodes cost $25 for a three-pack), reports Well + Good.

Nerivio

Theranica, a Netanya, Israel-based bio-medical technology company, developed smartphone-controlled wearable device Nerivio Migra, which uses Remote Electrical Neuromodulation for acute migraine treatment. The remote electrical neuromodulation (REN) wearable device only reduces pain once you’re having a migraine. The device is placed on the upper arm (not the head or neck) and uses smartphone-controlled electronic pulses to create a Conditioned Pain Modulation (CPM) response. Nerivio Migra is designed for acute treatment of migraine with or without aura in adult patients who do not have chronic migraine. Each device costs about $100, and treats 12 migraines. Theranica has partnered with Cove to enable its customers to access Nerivio on Cove’s advanced telemedicine platform.

Read more: Theranica Envisions a World of Non-Pharmacological Medical Therapy Wearables

Gammacore

For migraine and cluster headache pain gammaCore is an FDA-cleared, safe, and effective treatment. gammaCore Sapphire (non-invasive vagus nerve stimulator) is indicated for use in adult patients for the preventive treatment of migraine and cluster headache, and acute treatment of pain associated with migraine and episodic cluster headache. Available by prescription only. US Federal Law restricts this device to sale by or on the order of a licensed healthcare provider.

HeadaTerm

HeadaTerm is a wearable anti-migraine device that uses precisely designed electrical stimulation to target the central nervous system’s pain receptors by releasing pain-countering neurotransmitters. The device has been cleared by the FDA as well as other international medical agencies including Health Canada, CE, TGA and Israel. A study showed that TENS therapy conducted by HeadaTerm is a fast-acting treatment of acute migraines.

FLEEP Technologies, a Milan, Italy-based startup that designs and develops printed and flexible integrated circuits and systems based on OTFTs, has completed a seed round of €900K (USD 1,062,346), with the investment of “Eureka! Fund I – Technology Transfer” managed by EUREKA! Venture SGR.

Read more: Henkel’s Printed Electronics Solutions Are Propelling Smart Living, Mobility and Hygiene

“We are thrilled to announce a new add to the FLEEPtech's investor family! EUREKA! Venture SGR,” FLEEP said on its Facebook page.

“We are happy and thankful for the trust of our great investors, all mentors and partners who have supported us on our way but most importantly for our incredible team and their outstanding work in the last months to make this happen.”

FLEEP said the money will help in the company’s development plans and will be used to bring the technology of ‘printed electronics’ to market, reports EU-startups.

FLEEP’s technology implements the intelligent core of flexible electronic applications, by enabling the integration and driving of conformable organic sensors, actuators and power sources. Realized with complementary organic technology, FleepIC features mechanical flexibility and electronic operation with low power consumption, while easy, cost- and energy-efficient manufacturing is guaranteed by manufacturing processes derived from printing.

“The entry of Eureka! will allow us to face the challenges related to the development of printed electronics in a more solid way, with the awareness of having acquired not only capital but also a strategic investor who can certainly help us with his vast knowledge and network of contacts in the deep-tech world,” said Giorgio Dell’Erba, co-founder and CEO of FLEEP Technologies.

Read more: Printed Electronics Paves the Way for Bandages, Electric Tattoos and Biosensors

About FLEEP Technologies

FLEEP Technologies designs and develops printed electronics solutions for the biomedical and smart packaging sectors. The company, a spin-off of Istituto Italiano di Tecnologia, was founded in May 2019. FLEEPtech developed a proprietary process for the fabrication of polymer-based integrated circuits based on Organic Thin-Film Transistors, creating the intelligent core for electronics systems that are mechanically flexible, printed like magazines and recyclable.

Described as one of history’s greatest inventions, a zipper not only makes it more convenient to fasten your clothing, it also can be created to make life easier for people with disabilities. To keep up with smart clothes and smartwatches, a zipper of the future will also be smart. YKK, the world’s largest zipper manufacturer, has collaborated with Lifekey, the wearable technology company, for the development of Touchlink – an interactive zipper that can be connected to mobile phones.

Read more From Pregnant Mothers To Pets, Japan Is Making Swift Progress In The Race For Smart Clothes

Touchlink uses Near Field Communication (NFC), the same technology that powers “tap to pay” capabilities on smartphones. Users need to simply tap the zipper to their smartphone to view information about the garment on their screens—eliminating the need for hangtags and allowing more interaction between brand and buyer, reports Sourcing Journal.

Jason Kintzler, Lifekey’s founder and CEO, says that the platform can become an innovative advertising space. The retailers and brands can push exclusive content tailored specifically to existing customers, important product details, wash and care instructions, product warranty or safety information, etc.

“For the brand, it’s really the first time they’re able to truly ‘activate’ a product,” Kintzler told Rivet. “Not only is the brand able to share important product details, but it can also be useful for providing wash and care instructions, product warranty or safety information and so much more.”

Read more: Smart Clothes to Contribute Over $11 Bn to Fitness Wearable Revenue by 2025, Says Juniper Research

The smart zipper will hit the market in January and will allow integration with the brands’ existing operating systems. Lifekey’s smart straps can execute the same safety actions as the smart zipper.

About YKK

Since the company’s founding in Tokyo in 1934, YKK has continuously set industry standards for quality, service, value, and innovation in the production of zippers, plastic hardware, hook and loop fasteners, webbing tapes, and snap and buttons. With integrated production and supply systems in 72 countries and regions around the world, YKK is positioned to meet the needs of the textile and sewing product industries as they increasingly diversify and require shorter product cycles.

According to a new patent by Apple, the company’s new smart ring might use a collection of gesture controls, which could allow the user to point their ring at other devices to send commands.

Read more: The New Apple Watch Measures Blood Oxygen To Help Users Monitor The Effects Of COVID-19

The previous patent suggested the smart ring would feature biometric sensors, Siri voice assistant, and a small touchscreen and gesture control. But the most recent patent, which changed the name of the ring from a 'wearable ring device' to a 'wireless finger-worn device', implies it would be used to control external devices, like smart TVs or iPhones. The patent was filed in September 2019 and made public in April 2020.

First spotted by Apple Insider, the patent suggests, instead of being voice-controlled, the ring would have a touch-sensitive display component, and could be gesture-activated as well. Past patents have suggested it could also be expandable so the display stretches to cover most of your finger.

"Although the continuation patent doesn't necessarily introduce any significant new capabilities to the ring," says AppleInsider, "it does appear to be aimed at protecting the concept of an "Apple Ring" in a market that's very different than it was when Apple first started exploring a finger-worn wearable."

The patent mentions things like changes to volume, temperature, brightness and appearance of a user interface. This suggests the wearable could control a smart home heating system, among other devices.

The new patent also suggests how a user could communicate with another using a tiny microphone inside the device, reminding us of the Walkie-Talkie app on the Apple Watch.

Read more: Notable’s Apple Watch App Helping Doctors Save Time On EHR

"A user's hands may be preoccupied with another task, for example, or the user's hands and/or arms may become fatigued after holding the device in a viewing position for extended periods of time," the patent says. "The light emitted by a touchscreen may be inappropriate in certain social environments or even dangerous if it gives away the position of a threatened user."

In the healthcare sector, wearable technology includes smart patches, continuous glucose monitor (CGM), and more. Another aspect of healthcare that’s being impacted by wearable technology is rehabilitation. Wearable tech is now being harnessed to improve patient rehabilitation, especially those who need to undergo intense physical rehabilitation after a procedure, reports TouchPoint.

Designer Jessica Smarsch introduced a stroke rehabilitation garment designed for measuring muscle activity. Dubbed, Connextyle, the smart garment is inspired by an ancient Japanese technique called Kintsugi. It uses a new technology called TexPCBs, which is a silver-coated textile laminated between thermoplastic material, in order to create dry electrodes and measure muscle movement. The data collected by the TexPCBs is then sent to a processing module attached to the garments’ exterior. The module registers movement. The rehabilitation garment works in conjunction with an app that allows patients to track and monitor their rehabilitation process.

Read more: KYOCERA and TMDU Join Forces To Develop Wearable for Remote Rehab Monitoring During COVID-19 Pandemic

100 million people worldwide suffer from gait disorders. A Paris-based medical device company FeetMe decided to do something about it. They developed an innovative technology that combines a device with a series of pressure sensors, motion sensors, and learning algorithms to collect movement data. The data collected includes gait and posture data. Then it sends this information in real-time to a paired mobile application called FeetMe Evaluation. Besides analyzing gait and posture parameters, FeetMe also offers rehabilitation programs through its platform FeetMe Rehabilitation.

Stroke is a leading cause of disability, which affects approximately 17 million people worldwide each year. ReWalk Robotics manufactures robotic medical devices for people with lower limb disabilities. The company’s product ReStore consists of a soft garment-like design, which connects to a lightweight waist pack and mechanical cables that help lift the patient’s affected leg in synchronized timing with their natural walking pattern. ReStore provides targeted assistance to the patient during forward propulsion (plantarflexion) and ground clearance (dorsiflexion), two key phases of the gait cycle. The device also provides the physical therapists with extensive data during gait training with ReStore to inform strategies to optimize a patient’s treatment and progress using real-time analytics.

Read more: Northwestern Researchers Develop Groundbreaking Wearable that Could Be a Game Changer in Stroke Rehab

A Singapore-based company called SynPhNe developed the world’s first connected wearable solution that trains brain and muscle as one. This innovative technology helps people with physical disabilities resulting from neurological pathologies like stroke and traumatic brain injury, learning disorders, aging problems, chronic stress, and chronic pain. The SynPhNe device is very simple. It consists of 2 Gears—The HEAD GEAR which transmits EEG signals from the Brain, and the ARM GEAR which transmits EMG signals from the Muscle, thus making the brain and muscle work as one system.

STRAP Technologies announced today, on White Cane Safety Day in the United States, the creation of a hands-free device designed to be worn by the visually impaired to allow for more independence and mobility.

Read more: Loughborough University Student Designs Digital Guide Dog For The Blind

STRAP is a wearable, hands-free device with an innovative array of sensors that work by sending real-time information that detect obstacles at the head, chest and below — including oncoming bumps, holes, overhanging objects and steps. The haptic language notifications also make STRAP an intuitive device to use and easy to learn in less than two minutes. STRAP is designed for all ages and abilities and offers obstacle detection, stair detection, advanced haptic feedback, straight-line navigation and orientation. It can also distinguish between physical objects and people. The device once charged can last up to 72 hours and is easy to recharge with a magnetic charger provided, reports BusinessWire.

The device was first developed in Mexico by STRAP Technologies CEO and Founder, Diego Roel, who comes from an extensive background in robotics, new product ideation, R&D and IP strategy. “STRAP is the first assistive technology on the market that replaces the white cane that’s been in use for over 100 years,” Roel said.

“We’ve spent three years on the research and development of STRAP to invent a product that is truly innovative. We are really passionate about changing the way the blind and visually impaired explore the world; our core mission is that we believe autonomy and independence is a human right; not a luxury.”

Read more: Wearable Device Uses Ultrasound to Detect Obstacles for Blind People

STRAP Technologies is headquartered in Austin, Texas, with a Research and Development lab in Guadalajara, Mexico. The device is now available for preorder at an introductory price of $500 with a $50 deposit on the company’s website.

Finland, with a population of only 5.5 million, is very tech-savvy, especially when it comes to measuring health data. A total of 15% of the country’s residents have used smart devices for health data measurement for more than five years, reports Sitra. According to the report, 48% of Finns would also share their health data with research programs.

Read more Finland-Israel Partnership to Promote Digital Health Innovation

“When looking at many indicators, Finland is already ahead of other countries when it comes to individuals’ positive attitude towards technology, people’s digital skills and related services offered by society. That is why especially here in Finland we should invest in the creation of trust-based, human-driven data economy services. On the basis of the survey, Finland and Finnish companies have good preconditions for becoming the new, fairer ‘Silicon Valley’ of the 2020s,” says Sitra’s Senior Lead Tiina Härkönen.

The survey was conducted by Kantar TNS Oy in the Netherlands, France, Germany and Finland in June and July 2020. About 1,000 people were chosen from each country.

Half of the survey respondents said they used various instruments or applications to measure health data. The past two years saw an increase in the use of devices, such as activity trackers and smart rings. Measurement is further increasing: a fifth of the device users had started their use during the six months prior to the survey, according to Sitra.

Those who currently measure their well-being data feel that the data is very useful for them. A total of 40% of the respondents said that they have become motivated to do more/better exercise and nearly a fifth, 19%, had adopted healthier eating habits.

Read more: Germany is the Most Innovative Economy in the World, Says World Economic Forum

“The positive attitude of people in Finland towards technology is a solid foundation upon which to develop solutions for the management of the coronavirus epidemic,” says Jaana Sinipuro, Director of Sitra’s IHAN project. “Finland can and must lead the way in the creation of rules, technological solutions and success stories for the fair data market of the 2020s. We are in an advantageous position to solve problems that affect the entire world.”

HID Global announced that its next-generation Seos credential technology will enable Nymi Band 3.0 users to seamlessly open doors and authenticate to systems, devices and machines. Once authenticated, the Nymi Band offers the convenience of continuously authenticating the identity of the user until it’s removed from the wrist. This delivers zero-trust security principles and access control using convenient fingerprint and heartbeat biometrics to users seeking touchless authentication.

Read more: Xyntek, Nymi Partner Up to Add Wearable Biometric Devices to their Platform

“We are excited to provide these high-assurance authentication capabilities with the Nymi Band 3.0, an exciting new wearable on the market,” said Steve Currie, Vice President and Managing Director of Extended Access Technologies with HID Global.

In addition to physical and logical access use cases, Seos technology enables the Nymi Band 3.0 to be used for applications ranging from secure intelligent print collection and social distancing and contract tracing to contractor and visitor management, canteen and vending machine payment, and secure remote working, reports BusinessWire.

“HID Seos technology gives the Nymi Band 3.0 all the capabilities of a secure smart card, including its best-in-class cryptography that delivers superior data and privacy protection compared to other biometric and credential technologies,” said Chris Sullivan, CEO of Nymi. “We believe these capabilities will fuel even faster adoption for our wristbands, which are already seeing rapid uptake in applications like pharma manufacturing with an emphasis on privacy, security and natural user experience.”

This is How it Works

• The HID Seos applet is loaded onto secure elements (SEs) inside a Nymi Band so they can carry security keys and encrypted firmware.
• Seos credentials are sent to the wristbands over a Near Field Communications (NFC) connection.
• Users enroll their fingerprint one time to the Nymi Band and the Nymi Band is matched to the user identity.
• At the start of the work day, the user authenticates the band with their fingerprint, and the Nymi Band is enabled with strong assurance after it detects a heartbeat.
• Native support in HID DigitalPersona® software also enables the wristbands to be used for Windows login with both Seos and FIDO2 passwordless authentication.
• Seos credentials support HID Signo® and iCLASS SE® readers that are broadly deployed in every major vertical market around the world.

Read more: How Companies Are Using Wearable Tech To Bring Employees Back To Work

The Nymi Band provides strong assurance of an individual's identity using their unique biometrics. Through On-Body Detection (OBD) and presence, the Nymi Band 3.0 ensures that it is always on the intended user and the user is physically present. The user’s biometric never leave the Nymi Band 3.0, providing advanced security and privacy.

Femtech company Lady Technologies today announced its official launch of FDA-registered kegg, the first 2-in-1 device that combines fertility tracking with pelvic floor exercising. Along with the product release, the company also announced it completed a seed funding round worth $1.5 million. Investors include Crescent Ridge Partners, SOSV, Texas Halo Fund, Fermata Fund, MegaForce and several angel investors.

Read more: Femtech Startup Bloomer Develops Smart Bra that Can Monitor Women’s Health

According to the CDC, around 12% women between the ages of 15 and 44 in the U.S. have difficulty getting or staying pregnant. Ovulation is the most commons cause of infertility. Some common types of infertility testing include measuring thyroid function, progesterone levels, prolactin levels and the ovarian reserve.

kegg uses advanced sensing technology known as impedance to analyze changes in women's cervical fluid which is then analyzed in the cloud with results delivered to the user's smartphone. The device specifically senses changes in electrolyte levels to detect the hormonal switch from estrogen to progesterone that accompanies a woman's fertile window and ovulation, says a press release.

"We have created the first, easy to use modern medical device to help women manage their fertility with actionable data. Cervical fluid is a standard for determining women's conception probabilities on a daily basis and kegg is the most convenient way to measure it. In future, we want to look at other use cases that include infections, fertility tracking during postpartum and perimenopause," said Founder and CEO Kristina Cahojova.

The device is made with medical-grade silicone and gold plated, stainless steel sensors and only needs to be inserted for two minutes a day. Before each test, women can also opt to do Kegels to exercise their pelvic floor muscles. kegg communicates wirelessly through a phone's Bluetooth connection. The antenna is placed in the tail, safely keeping it outside the body. Data is processed through personalized algorithms allowing women to visually understand their fertile window on the company's free mobile app.

Read more: Femtech Hardware Elvie Partners with NHS to Tackle Stress Urinary Incontinence

"One of my proudest accomplishments is building a community of over 2,000 (and growing!) women who are tracking their fertility. We've already had several women report successful pregnancies using kegg since our Beta launch and it's been a joy to celebrate together. We also lean on our customers for valuable feedback. Most recently, we've developed an upgraded app that is more intuitive and builds on our user's feedback to provide more actionable insight into their unique fertility cycles."

Garmin has partnered with Children’s Mercy Kansas City – one of the top pediatric health systems in the country – to help support the Children’s Mercy Stay Active Program, a community-based program that supports students’ learning, overall health and development.

Read more: Garmin Launches Feature-Packed Forerunner 745 Smartwatch For Elite Athletes

Several Kansas City area elementary schools are collaborating with Children’s Mercy Kansas City to bring the Stay Active Program to their students this school year. As part of the Stay Active program, physical activity instructors will deliver engaging, structured activity lessons to 4th and 5th grade virtual classrooms using a video conferencing platform. Parents and kids can rely on their Garmin wearable fitness tracker to support their fitness goals by monitoring step count, activity minutes and more, reports BusinessWire.

“The COVID-19 pandemic has created numerous challenges for families trying to engage in healthy lifestyles, especially as many students head back to school online. Garmin is excited to support Children’s Mercy Kansas City and continue our mission to help improve pediatric health and outcomes,” said Joe Schrick, vice president of Garmin fitness segment.

Jordan Carlson, PhD, associate professor of pediatrics, Center for Children’s Healthy Lifestyles and Nutrition at Children’s Mercy, is leading the effort: “The school setting is such an essential source of children’s physical activity that moving school education from in-person to online could eliminate over half of their daily physical activity. The COVID-19 pandemic is accelerating socioeconomic disparities, which has major implications for long term health, so it is more important than ever to provide safe opportunities for children from lower-resourced communities to engage in active lifestyles.”

Through the Children’s Mercy Center for Pediatric Innovation, Garmin and Children’s Mercy have formed a strategic alliance and are collaborating on several projects to help improve pediatric health outcomes, such as the use of Garmin wearable fitness trackers to monitor activity levels for Type 1 Diabetes patients. The biometric information from Garmin wearables assists clinicians during telehealth appointments and could someday help drive predictive analytics capable of identifying risk factors for diabetic events before they happen.

Read more: Treating ADHD by Using Video Game to Monitor Children’s Brain Waves

Additionally, Garmin and Children’s Mercy are working on research projects to profile the accuracy of these biometrics when worn by children. This validation will support the use of Garmin wearable fitness trackers as they provide meaningful endpoints in remote monitoring solutions. The biometric data will be integrated with the Children’s Mercy infrastructure through use of the Garmin Health API and become part of the clinical flow.

The global medical wearables market will record decent returns by the end of the forecast period of 2020-2027, while registering a substantial growth rate throughout this duration, according to a new report by Report Ocean. This report also provides in detail, the market investment opportunities, government policy, market dynamics, market share, supply chain and competitive landscape.

Read more: Worldwide Non-Optical Pressure Sensor Market Is Estimated To Grow At A Healthy CAGR During 2020-2025

Global Medical Wearables Market is valued at approximately USD 6.1 billion in 2019 and is anticipated to grow with a healthy growth rate of more than 21.4% over the forecast period 2020-2027.

Medical Wearables are the handheld monitoring tools primarily used in monitoring and identification of disease. With the rise in prevalence of chronic diseases, patients are opting for home healthcare tools as an efficient and cost-effective of treatment, instead of hospital services.

In the present scenario, medical wearables are gaining immense traction, due to enhanced technologies that are being pioneered consistently by the manufacturers. Due to these advancements of medical wearable technology and growing demand from patients to monitor their own health has influenced the growth of wearable medical device industry to develop more wearable devices, such as smartwatches, fitbits, and wearable monitors. Further, increasing the occurrence of chronic diseases, such as cardiovascular, cancer, etc., increasing usage of smartphones in health monitoring, and increasing awareness for health & fitness among people are the few factors responsible for high CAGR of the market during the forecast period, says a press release.

According to the American Heart Association, the occurrence of death due to cardiovascular diseases was about 17.6 million in 2016, and a number is expected to grow to over 23.6 million by 2030. Also, as per the Center for Disease Control and Prevention (CDC), about 610,000 die due to heart diseases in the United States every year. This, in turn, is projected to accelerate the adoption of medical wearables around the world. The outbreak of COVID-19 crisis has led to rise in demand for medical wearables, as these devices are helpful in screening and monitoring of novel coronavirus infections. Therefore, this factor can create lucrative opportunities for the medical wearable market in the forthcoming years. However, inaccuracy in the analysis of wearable generated data and unfavorable reimbursement issues impede the growth of the market over the forecast period of 2020-2027.

Read more Wearable Cardiac Devices Market Worth USD 6.4 Billion By 2026, According To Global Market Insights

The regional analysis of the global Medical Wearables market is considered for the key regions such as Asia Pacific, North America, Europe, Latin America, and Rest of the World. North America is the leading/significant region across the world in terms of market share owing to the rising incidences of cardiovascular disorders, diabetes, and cancer, coupled with the early adoption of wearable medical technology in the region. Whereas, Asia-Pacific is also anticipated to exhibit the highest growth rate / CAGR over the forecast period 2020-2027. Factors such as rising government initiatives for medical wearables, increasing aging population, and growing healthcare expenditure by people would create lucrative growth prospects for the Medical Wearables market across the Asia-Pacific region.

Major market player included in this report are:

• Koninklijke Philips N.V.
• Medtronic plc
• Omron Healthcare Co., Ltd.
• Biotelemetry, Inc.
• Apple Inc.
• GE Healthcare
• Abbott Laboratories
• Dexcom, Inc.
• iRhythm Technologies, Inc.
• Masimo Corporation

Dogs working in the U.S. military could in the future wear augmented reality (AR) goggles that enable soldiers to give them remote commands during operations, reports CNN.

Dogs are commonly deployed to sniff out explosives, hazardous materials or to help in rescues. The technology was developed under a project funded by the Small Business Innovation Research program, managed by the US Army Research Office, a part of the US Army Combat Capabilities Development Command’s Army Research Laboratory. The goggles are being developed by Command Sight, a Seattle-based company, with US Army research funding.

Read more: US Homeland Security Wants to Outfit Its Dogs with Wearable Tech

Special safety goggles already worn by military dogs would be retrofitted with live cameras and visual indicators so handlers can issue specific directions. The technology allows the handlers to see everything the dog can see and then provide specific commands using visual cues that show up in the dog’s line of vision.

“Augmented reality works differently for dogs than for humans,” said Dr. Stephen Lee, an Army Research Office senior scientist in a statement. “AR will be used to provide dogs with commands and cues; it’s not for the dog to interact with it like a human does. This new technology offers us a critical tool to better communicate with military working dogs.”

The technology is still just a prototype. The initial design is wired and requires a leash, but Command Sight said in an Army news release it’s working on a wireless model.

“We are still in the beginning research stages of applying this technology to dogs, but the results from our initial research are extremely promising,” said A.J. Peper, founder and CEO of Command Sight.

Peper added he had mostly been testing out the gear on his own Rottweiler, Mater.

“His ability to generalize from other training to working through the AR goggles has been incredible,” he said. “We still have a way to go from a basic science and development perspective before it will be ready for the wear and tear our military dogs will place on the units.”

Read more: US Army Uses Modified HoloLens 2 for Real-Life Video Game

The US Army said the goggles will all be custom-made, with each dog in the trial scanned in 3D so developers can understand where to position the optics and electrical components.

Motobit, a startup based in Austria, has unveiled a wearable device aimed at motorcyclists. The device uses vibrations to communicate with riders at all times, to allow them to keep focused on the highway and persist with an appropriate pace to help stop accidents. The novel device is out there solely through the crowdfunding website Indiegogo, priced from €109 (US$128).

Read more: DigiLens Announces AR Waveguide Displays for Smart Motorcycle Helmets

The device, called Sentinel, connects to the rider’s smartphone over Bluetooth and has its own specific application. On the road, riders receive warnings about potentially dangerous situations thanks to a haptic feedback system causing the device to vibrate. Sentinel should ideally be worn on the wrist, but it can also be carried in a pocket or on a belt, reports Head Topics.

Thanks to its advanced algorithms, Sentinel analyzes users’ riding behavior and the course of the road to alert riders when they’re going too fast, especially on bends. This can help prevent skidding and other accidents.

Motobit has opted to use haptic feedback as a way of communicating with motorcyclists instead of audio or visual notifications. This allows riders to stay focused and keep their eyes on the road. Plus, in the event of an accident, emergency contacts can be messaged at the touch of an easily accessible button.

Note that Sentinel also has a group riding mode. If several friends all have the wearables, for example, they can set a maximum distance to maintain between riders. In other words, if one biker can’t keep up, the other members of the group will be automatically notified.

Read more Skully Technologies is the First Company to Market Heads-Up AR Display Helmet with its FENIX AR

Sentinel is the fruit of more than two years of research and is now available via the Indiegogo crowdfunding platform. The first shipments aren’t expected until spring 2021.

Over the last few years, we have seen an increased interest in flexible sensors that provide biometric measurements with comfort to the user. Now, an international team of researchers has taken the evolution one step further by printing sensors directly on human skin without the use of heat.

Read more: MU Engineers Develop New Method Of Allowing Patients To Draw Their Biomedical Sensors On Skin

The sensors are capable of precisely and continuously capturing temperature, humidity, blood oxygen levels and heart performance signals, according to the researchers. They also linked the on-body sensors into a network with wireless transmission capabilities to monitor the combination of signals as they progress.

Led by Huanyu "Larry" Cheng, Dorothy Quiggle Career Development Professor in the Penn State Department of Engineering Science and Mechanics, the team published their results in ACS Applied Materials & Interfaces.

“In this article, we report a simple yet universally applicable fabrication technique with the use of a novel sintering aid layer to enable direct printing for on-body sensors," said first author Ling Zhang, a researcher in the Harbin Institute of Technology in China and in Cheng's laboratory, reports Penn State.

Cheng and his colleagues previously developed flexible printed circuit boards for use in wearable sensors, but printing directly on skin has been hindered by the bonding process for the metallic components in the sensor. Called sintering, this process typically requires temperatures of around 572 degrees Fahrenheit (300 degrees Celsius) to bond the sensor's silver nanoparticles together.

"The skin surface cannot withstand such a high temperature, obviously," Cheng said. "To get around this limitation, we proposed a sintering aid layer -- something that would not hurt the skin and could help the material sinter together at a lower temperature."

By adding a nanoparticle to the mix, the silver particles sinter at a lower temperature of about 212 F (100 C).

"That can be used to print sensors on clothing and paper, which is useful, but it's still higher than we can stand at skin temperature," Cheng said, who noted that about 104 F (40 C) could still burn skin tissue. "We changed the formula of the aid layer, changed the printing material and found that we could sinter at room temperature."

The room temperature sintering aid layer consists of polyvinyl alcohol paste -- the main ingredient in peelable face masks -- and calcium carbonate -- which comprises eggshells. The layer reduces printing surface roughness and allows for an ultrathin layer of metal patterns that can bend and fold while maintaining electromechanical capabilities. When the sensor is printed, the researchers use an air blower, such as a hair dryer set on cool, to remove the water that is used as a solvent in the ink.

"The outcome is profound," Cheng said. "We don't need to rely on heat to sinter."

The process is also environmentally friendly, Cheng said. The sensor remains robust in tepid water for a few days, but a hot shower will easily remove it.

Read more: UTS Researchers Developing Wearable Sensors to Improve Communication Between Human Brains and Robots

"It could be recycled, since removal doesn't damage the device," Cheng said. "And, importantly, removal doesn't damage the skin, either. That's especially important for people with sensitive skin, like the elderly and babies. The device can be useful without being an extra burden to the person using it or to the environment."

Next, the researchers plan to alter the technology to target specific applications as needed, such as a precise on-body sensor network placed to monitor the particular symptoms associated with COVID-19.

A simple piece of tech developed by Vanderbilt engineers can help significantly reduce risk for back pain. The exosuit, which supports human movement and posture, can reduce fatigue by an average of 29–47 percent in lower back muscles, said the researchers. The functionality of the wearable device presents a promising new development for individuals who work in physically demanding fields and are at risk for back pain, including medical professionals and frontline workers, reports Marissa Shapiro at Vanderbilt Research News.

Back pain is on the rise. Experts say 60 to 80 percent of all adults will have low back pain in their lifetime. While the choice of treatment is complicated by the risk of opioid reliance for pain relief. Unfortunately, few solutions to prevent back pain have offered solid evidence of benefit.

Read more: Ford Unveils Exoskeleton Vests Worldwide to Help Lessen Worker Fatigue and Injury

“Honestly, I am sick and tired of Bruce and Tony Stark being the only ones with performance-boosting super suits. And the idea here is I’m not fighting crime but I am fighting against the odds of developing low back pain,” says Karl Zelik, Ph.D., assistant professor of physical medicine and rehabilitation at Vanderbilt University Medical Center.

“Our goal was to create a device that seamlessly integrates into the wearer’s life so they can wear it comfortably and only engage assistance when they need back relief during bending or lifting,” Zelik said.

The research, led by Zelik and recent Ph.D. graduate and primary author Erik Lamers, used surface electromyography techniques to measure changes in low back muscle fatigue in male and female participants, who were given physical tasks to perform both with and without the exosuit.

The wearable technology developed by Zelik’s team may conjure images of Iron Man’s suit, but it does not rely on motors or batteries. Instead, the low-profile, elastic exosuit applies assistive forces that cooperate with the low back extensor muscles, to relieve strain on the muscles and spine, and to help reduce injury risks.

This study showed that wearing the exosuit made holding a 35-pound weight (the average weight of a 4-year-old child) less tiring on the back than holding a 24-pound weight (the average weight of an 18-month-old baby) without the exosuit, the Vanderbilt report said.

Read more: Scientists Develop Exosuit that Improves Metabolic Rate of Walking and Running

“These findings show how exosuits could provide valuable back relief to frontline and essential workers who have been taking a physical toll and supporting all of us throughout this pandemic. What we learned has the potential to shape the biomechanical and industrial standards of future wearable technologies,” said Zelik, who holds secondary appointments in biomedical engineering and in physical medicine and rehabilitation.

Scientists at the University of Massachusetts – Amherst have created a sensing eye mask that could unobtrusively capture pulse, eye movement and sleep signals.

Read more: Silentmode PowerMask with Immersive, High End Audio Enables You to Sleep Anywhere

“Being able to track pulse and eye movement in a single wearable device will enable a host of sleep and psycho-social studies, in addition to improving the accuracy and usability of gaming and virtual reality headsets,” the authors wrote. First author S. Zohreh Homayounfar, will present the findings this week at the online Fall Meeting of the American Chemical Society.

According to the researchers, the mask’s ability to track pulse and eye movements may open future studies into sleep and psychology.

Existing technology that’s used to track eye movements relies on electrooculography (EOG). And although it’s very good at measuring the eye’s electrical potential changes, the technique is over 50 years old and it requires the use of adhesive electrodes stuck to the user’s face, which is uncomfortable and intrusive, reports University of Massachusetts Amherst.

Recording health and behavior signals on or near the face is challenging, notes senior author Trisha L. Andrew, materials chemist and Wearable Electronics Lab director. “because most people are really sensitive and reactive to objects placed on their face or head.”

Named ‘Chesma’, the lightweight, tailorable eye mask is fitted with two kinds of fabric electrodes that can simply be sewn onto a variety of pre-made garments and further miniaturized, if desired. This capability allows them to integrate electrodes into a lightweight foam mask for recording electro-oculography and cardiac signals. Their design automatically positions the electrodes on the face with no need for custom fitting, the UMass report said.

The mask contains five silver (Ag) thread-based hydrogel electrodes –dubbed tAgTrodes – needed to translate ion-based biological signals into an electric current, among other goals. The researchers took advantage of a vapor-phase deposition process to create the electrodes, including what they call a first-of-its-kind reusable and washable hydrogel component that distinguishes the tAgTrode from other equivalents.

Here, Andrew says she takes pride in noting that “part of the work that went into carrying out the deposition process was performed by Emerson T. Alexander, an exceptional student from Springfield Technical Community College,” who took part in a paid internship in her lab and funded by the L’Oréal USA For Women in Science program.

The mask also contains one fabric pressure sensor (PressION) positioned over an artery to monitor pulse as a proxy for cardiac function, with the whole linked to two microcontrollers with water-repellant silver threads as connectors. Another author, Ph.D. student Ali Kiaghadi, explains that “the electrode and sensor data need to be communicated once they are acquired. Our design transmits raw data to the cloud for processing and data visualization so that we can reduce the amount of instrumentation that we need to include in the mask itself.”

Read more: Put on Lumos Smart Sleep Mask and Say Goodbye to Jet Lag

The team tested the new eye mask on subjects while they were chewing, talking, and during various head and eye movements. They also used the same device for more than a year and after 15 washings found no degradation in performance. Homayounfar notes that the tAgTrode “overcomes all the drawbacks of commercial wet electrodes such as aesthetic issues, discomfort, and wash-stability, while maintaining high and constant signal-to-noise ratios during repeated, longterm applications.”

The study was published in the journal Matter.

Researchers in Austria have developed the world’s smallest particle detector. The detector is so small that it could bring particle detection to the palms, wrists, and pockets of the general public, thus informing users of real-time localized fine dust and particle content in the air. To create the device, the researchers used established methods in the development of conventional measuring devices alongside cutting-edge fabrication and integration techniques.

Read more: This Wearable Gas Sensor is Meant for Monitoring Health and Environment

With this 12 x 9 x 3-millimeter innovation, smartphones, smartwatches or fitness wristbands can for the first time measure the quality of the ambient air in real-time and sound the alarm in the event of increased fine dust values, reports Eureka Alert.

The sensor was developed by Paul Maierhofer as part of his dissertation at the Institute of Electrical Measurement and Sensor Systems at Graz University of Technology together with experts from the semiconductor manufacturer ams AG and with researchers from Silicon Austria Labs (SAL). The innovation is the miniaturization itself, as Maierhofer explains: "The sensor is right at the limit of what is physically and technically feasible and involves a lot of tricks to function at this size."

Adapting behavior to ambient air

The immense social benefit of this new innovative particle sensor is obvious. According to a study by the European Environment Agency (EEA), over 400,000 people die prematurely every year in Europe alone as a result of particulate matter pollution. With the help of wearables equipped with the new particle sensor, each and every individual can monitor the ambient air and react immediately in the case of health-endangering fine dust values. "For example, by avoiding particularly polluted routes when jogging or on the daily commute to work," says Alexander Bergmann, head of the Institute of Electrical Measurement and Sensor Systems at TU Graz and doctoral supervisor of Paul Maierhofer.

Improving air quality

Not only in wearables, the sensor can also be integrated in local applications - both in the home and outdoors - and thus provides an unprecedented variety of measured values. Bergmann is convinced that this represents a break from the past in air quality monitoring: "Close-meshed and comprehensive monitoring of air quality has so far failed due to the size, complexity and cost of currently available measuring sensors. Our particle sensor fills a gap here." The data obtained can serve as a basis for further regulatory measures and raise public awareness of the particulate matter problem.

Read more: Noninvasive Wearable Sensors to Advance Chronic Respiratory Disease Management In Patients Around the World

The series production aimed at by semiconductor manufacturer ams is intended to achieve a price that is significantly lower than the currently available sensors. ams is an international leader in the development and manufacture of high-performance sensor solutions.

Pioneering fitness technology startup Wondercise has launched its home training system to analyze and compare user movements with those of an on-screen trainer in real-time, globally with Apple Watch and Garmin Wearable support.

Read more: Fitness App Market Poised To Grow at a CAGR of 12%, Reaching 1.68 Billion During 2020-2024 Period

Wondercise Motion Matching

With Motion Matching technology, Wondercise brings the personal touch of taught classes to living rooms around the world.  Wondercise offers unlimited access to over 50 classes at an affordable price, with sessions from trainers, including MMA champion Luis ‘Baboon’ Palomino, fitness influencer Adam Frater, and experts across a huge range of disciplines. These include Resistance Band Training, Hip Hop Dance, Kettlebell Crush, Tai Chi, Yoga, and more. Motion Matching enables users to maintain a focus on form, mirror trainers’ movements, and maximize workout results, reports BusinessWire.

A Wonder Core company

Wondercise is built upon years of international insights into health and fitness; with its award-winning parent company, Wonder Core having achieved global acclaim with over ten million products sold.

“With the backdrop of COVID 19, a dramatic reduction in gym attendance, and an increase in time spent at home, it has become critical for everyone to have easy access to an affordable and effective fitness solution during this new normal, said Wondercise CEO Eric Chung. “Wondercise’s Motion Matching technology and support for a wide range of wearables creates an ideal alternative for consumers and the broader fitness, wellbeing and health industries.”

With the global rollout of the Wondercise service released in tandem with Apple Watch support, Wondercise is set to target the 51.4 percent of global smartwatch users who currently own an Apple Watch.

About Wondercise

Established in 2015 by Wonder Core, Wondercise is a smart technology and fitness equipment brand that aims to improve personal sports performance by providing a complete fitness experience for all.

Read more: Amazon’s Halo Fitness Tracker Can Detect Your Body Fat and Tone of Voice

In just four years, Wonder Core has become a top-300 patent applicant in Taiwan, receiving invitations from the government to participate in national innovation events. Alongside its continued work to develop its Motion Matching technology, research is being carried out in partnership with gyms and hospitals.

New technology from INFICON soon will allow automakers and battery suppliers to reliably test critically important electric-vehicle battery cells for the first time.

Faulty battery cells can dramatically shorten battery life, increase warranty costs, affect customer satisfaction and damage product reputation, as well as create safety-and-drivability problems.

Read more: Epsilor Will Present Wearable Battery for Digital Soldiers at DVD2018

Billions of lithium-ion battery cells are produced annually for use in electric, hybrid-electric and autonomous vehicles, as well as for medical devices and a variety of consumer electronics products. Depending on cell type, five percent or more of those cells may have undetected leaks.

INFICON's breakthrough leak-detection systems can reliably and accurately test all types of lithium-ion battery cells for the first time – the single most important leak-detection development in the past 10 years. Developed at the company's research facilities in Cologne, Germany, they also incorporate sensor technology from INFICON's North American headquarters in Syracuse, New York.

Based on mass-spectrometer technology, the company's new leak detectors are able to identify dangerous leaks 1,000 times smaller than currently possible, says a press release.

Dr. Daniel Wetzig, INFICON's research and development director for leak detection based in Cologne, notes that only a fraction of new battery-cell leaks can be detected through traditional methods. He adds that the company's new ELT3000 technology also could pave the way for the industry's first reliable quality-control standards for EV battery cells.

“The rapid detection of even the smallest battery-cell leaks is absolutely essential to achieving extended service life and meeting necessary safety requirements," Wetzig says. "The use of industry-first spectrometer technology, for example, can help assure an extended EV battery life of up to 10 years or more."

Wetzig points out that INFICON's new systems also can be used to test billions of battery cells annually produced for use in smartphones, computers, and other consumer electronics products.

Three types of battery cells today are used to power most hybrid-electric, electric, and autonomous vehicles:

hard-cased prismatic, cylindrical cells and softer pouch cells. INFICON equipment for testing prismatic and cylindrical cells is scheduled for introduction in October, followed by testing devices for pouch cells in late 2020 or early 2021.

Empty hard-case battery cells currently are checked by filling the cells with helium test gas to detect leaks while in a vacuum chamber. Electrolytes are not inserted into the cells until after they have been "dry tested."

Helium bombing is an alternative approach, but generally not suited for liquid-filled components. If used, however, electrolyte-filled battery cells are placed in a vacuum chamber and exposed to helium under pressure. Helium enters through existing leaks and then can be measured as it escapes back into the vacuum chamber.

Read more: Yarn Battery Could Power Smart Clothes and Wearables

Neither test method provides the reliably consistent results needed to establish industry-wide standards for battery-cell leak detection.

INFICON's new process will, for the first time, allow automakers and battery suppliers to accurately test battery cells already filled with electrolyte. The cells are placed into a vacuum chamber connected to an INFICON ELT3000 leak-detection unit with a mass spectrometer for testing.