Google has finally revealed its smartwatch. Named the Pixel Watch, the company has confirmed that it will be coming this 'fall' - likely meaning between September and November.

The Google Pixel Watch combines its own Wear operating system with Fitbit health tracking.

Although the tech giant has supported smartwatches through its wearable operating system and completed its acquisition of Fitbit for $2.1bn (£1.7bn) last year, this is Google's first branded smartwatch.

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The watch can be paired with Android devices only and is 4G-compatible, which means it can function on its own without being near a phone - but to do this it requires its own data plan. Both the phone and watch would also need to be on the same network, according to Google.

There's not much need for design leaks because Google itself has shown us what the Pixel Watch looks like, as you can see in the image.

“This includes a circular screen, a - presumably rotatable - crown, and a build made of recycled stainless steel. The company also promises customizable bands that will seamlessly attach", reports TechRadar.

As such, the Pixel Watch looks set to be a rather clean and minimalist smartwatch, somewhat in keeping with the design of other Pixel devices. Interchangeable bands, meanwhile, would offer wearers a bit of customization.

According to a leak by 9to5Google, the Pixel Watch could have 32 GB of internal storage. For a smartwatch, that’s a lot. The only reason we can think of having that much storage would be for downloading music files.

Pricing for the Pixel Watch is a mystery. Still, we can speculate a bit. Because Google owns Fitbit, it will probably avoid placing the Pixel Watch in the same price category as Fitbit products. That means it could cost more than the $200 Fitbit Sense.”

CamDiab and Ypsomed announced that they are partnering to develop and commercialize an integrated automated insulin delivery (AID) system to help lessen the burden of round-the-clock diabetes management for people with diabetes. The initial focus of the partnership will be in European countries.

Related Abbott Announces New Biosensors Based on Diabetes Monitoring Tech at the CES

The new integrated AID system is being designed to connect Abbott’s FreeStyle Libre 3 sensor, the world’s smallest and most accurate continuous glucose monitoring sensor with readings every minute, to CamDiab’s CamAPS FX mobile app, which connects with Ypsomed’s mylife YpsoPump – creating a smart, automated process to deliver insulin based on real-time glucose data. The connected, smart wearable solution is designed to continuously monitor a person’s glucose levels and automatically adjust and deliver the right amount of insulin at the right time, removing the guesswork of insulin dosing, Abbott said in a press release.

“Our goal is to make diabetes care as easy as possible, which is why Abbott continues to expand its team of insulin delivery partners, digital coaching and technology leaders,” said Jared Watkin, senior vice president of Abbott’s diabetes care business. “We want to deliver new advanced solutions that simplify and make it possible for people to spend less time thinking about diabetes and more time living.”

“Poor glucose control leads to an increased risk of diabetes complications such as blindness, and heart and kidney disease. We want to help people with diabetes better manage their glucose through advanced technology. Our CamAPS FX, already approved in Europe, is a highly adaptive algorithm that when integrated with Abbott’s sensor is being designed to communicate with Ypsomed’s insulin pump to provide the optimal insulin dose, lifting the burden of managing a condition that is relentlessly unpredictable day and night,” said Roman Hovorka, director of CamDiab Ltd.

“We are convinced that major challenges of society can only be addressed through partnerships. We are therefore proud to expand our partners and connectivity to offer more freedom of choice in managing diabetes. When combined our mylife YpsoPump with the FreeStyle Libre 3 system and CamAPS FX advanced adaptive hybrid closed-loop app, we will be able to deliver an additional compact and lightweight AID system that is discreet and simple to use,” said Simon Michel, chief executive officer of Ypsomed.

The companies intend to complete development by end of 2022 with commercial availability expected thereafter.

About Abbott

Abbott is a global healthcare leader that helps people live more fully at all stages of life. Our portfolio of life-changing technologies spans the spectrum of healthcare, with leading businesses and products in diagnostics, medical devices, nutritionals and branded generic medicines. Our 113,000 colleagues serve people in more than 160 countries.

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About CamDiab

CamDiab Ltd is a digital health and personalized medicine company focused on the design, development, and commercialization of its world leading, interoperable CamAPS FX closed loop app. The CamAPS FX is designed to use adaptive, self-learning control algorithm, linked to a compatible continuous glucose monitoring device and a compatible insulin pump, to autonomously compute and direct insulin delivery to maintain tight glycemic control.

About Ypsomed

Ypsomed is the leading developer and manufacturer of injection and infusion systems for self-medication and a renowned diabetes specialist with over 35 years’ experience. As a leader in innovation and technology, it is a preferred partner of pharmaceutical and biotech companies for pens, autoinjectors, pump systems and software solutions for administering liquid medications.

Can you imagine being able to feel the cold of Siberia, or the heat of the desert in virtual reality? Well, it seems that soon it will be possible. The technology is already here, according to reports from TechSpot is likely to be one of the most immersive that we have known so far.

Created by researchers at the Human Computer Integration Lab at the University of Chicago, chemical haptics uses autonomous wearable devices to simulate sensations in virtual reality. Wearable devices combine silicone patches and micropumps to deliver five different chemicals to a person’s skin surface.

Related Thermal Display Glove Enable Users to Feel Virtual Temperatures in Real-Time

The chemicals can produce 5 different sensations: menthol creates a cooling effect, ideal for going out on a cold winter day in a virtual reality game; capsaicin, often present in spicy foods, reproduces the sensation of heat; sanshool can give a tingling sensation to an area; and lidocaine, a local anesthetic, can make your skin numb. A video shows how sanshool can simulate the shorting sensation of a futuristic surveillance device on the forearm.

While lidocaine sounds slightly concerning, it’s not quite as worrying as the last chemical: cinnamaldehyde. This will create a stinging sensation on the skin, possibly used as negative feedback when a player fails to achieve a task, or when they receive an in-game burn. It is worth remembering that all these chemicals are safe, apparently, so you’re unlikely to suffer injuries or have your skin melt off in some kind of Squid Game-like scenario. The devices certainly provide a wider range of simulations than current haptic feedback kits like the one below.

Related UK Virtual Reality Startup Moonhub Launches VR Dementia Training Suite

The chemical haptics device can be worn anywhere there is direct contact with the skin, such as on the cheeks for simulating hot/cold environments. You probably shouldn’t, however, stick them to your junk, but you can guarantee plenty of people will.

Fancurve, a blockchain-enabled digital fashion company, today announced the launch of its groundbreaking platform focused on building communities around virtual sports apparel and lifestyle collectibles. By engaging its audience through digitally wearable jerseys and interactive extensions, Fancurve aims to shape the future of digital sports fashion, connecting fans with the biggest athletes, clubs, designers, and culture-defining brands.

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Fancurve is an original, user-friendly platform with bespoke virtual apparel drops designed by highly skilled – digital fashion designers. As the locker room for the modern sports collector, Fancurve is a space to express fandom and gear up for the next adventure. Through its community-driven ethos, Fancurve serves as an approachable Web3 launchpad for other fashion and lifestyle brands as they enter the growing metaverse.

Founded by Chris Chaney (C4+, OpTic Gaming/Houston Outlaws, Limitless Studios) and Andrew Nestor (Dugout, Bologna FC, MP & Silva), Fancurve has formed a team of talented employees with extensive experience across Web3, fashion, esports, and traditional football, having worked with major industry leaders within these spaces. Its diverse global team is nearly as international as football itself, with employees based in the United States, Germany, France, Denmark, United Kingdom, Portugal, Spain, Serbia, Nigeria and Pakistan, says a press release.

“At Fancurve, we’re focused on updating the meaning of sports fandom – for today’s digital world and redefining what it will become in the future,” said Chris Chaney, Fancurve Founder and CEO. “Our priority is to build a trustworthy and engaging platform for our users as they explore the growing Web3 ecosystem. In doing so, we’re striving to be nothing less than the largest and most innovative digital wearables platform for sports fans across the globe.”

At launch, Fancurve has raised a $6.25M seed round from a diverse cross section of investors across the sports, technology and Web3 landscape. Led by Greenfield One, other key partners (among 42 total investors) include Shima Capital, 6th Man Ventures, OneFootball, Reverb Ventures and Valhalla Capital, with angel investment from MP & Silva co-founder Carlo Pozzali, Sorare growth lead Brian O’Hagan and OneFootball CEO Lucas Von Cranach. Star footballers André Schürrle and Mario Götze also participated in the seed round. Together, their collective investment will support Fancurve’s growth and future offerings.

Related Are Smart Fabrics the Future of Fashion?

“The Fancurve team excited us with their ambition and expertise across Web3, sports and fashion,” said Jascha Samadi, Co-founder and Partner at Greenfield One. “We’re proud to work with them as they champion and introduce innovative sports fashion ideas into the metaverse.”

In May, Fancurve will unveil its suite of initial drops, headlined by a flagship partnership with a top La Liga football club. For the latest news and developments, join the Fancurve Discord and follow along on Twitter, Instagram and Discord.

About Fancurve

Fancurve is a digital sports fashion platform that empowers fans to express their passions, personalities and connection through premium digital sports wearables. We develop unique collaborations that bring together global communities through their shared passion for football (soccer), culture and fashion.

By connecting fans with the world’s leading athletes, clubs, culture-defining brands and designers, Fancurve is building a community that will shape the future of sports fashion.  Fancurve will also serve as a Web3 launchpad for fashion and lifestyle brands and products to enter the metaverse.

There are myriad ways in which people can experience physical wounds – from minor scrapes and abrasions to the effects of surgery, critical injuries, burns and other major traumas. The healing process for these wounds can also vary among individuals and may be adversely affected by underlying health conditions such as vascular insufficiencies, diabetes, obesity and advanced age. In severe cases, abnormal wound healing processes can result in chronic wounds, a condition which can dramatically affect mobility, quality of life and healthcare costs.

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The normal wound healing process involves a complex series of four overlapping but distinct steps. During the initial steps, platelets from the blood control bleeding by signaling the formation of a protein matrix plug; they also generate molecules that will constrict blood vessels and mobilize other types of cells to the site. These additional cells kill pathogens in the wound area and trigger wound healing and blood vessel formation. In later steps, the protein matrix, blood vessel growth and connections are even further developed, and skin and other surface cells begin to migrate to the site. Together, the skin and protein matrix form granulation tissue to repair and close the wound. In the final step, blood vessel formation tapers and the granulation tissue continue to develop until it eventually becomes a scar, reports Terasaki Institute.

Existing therapies for healing wounds include dressings, negative pressure bandages, growth factor-based and anti-inflammatory drugs, debridement, and ultrasound treatments. But even under the best conditions, the average time for complete wound closure is 12 weeks using these methods.

A more recent therapy that is being explored is electrical field (EF) stimulation; this method accelerates wound healing with limited side effects. Administering EF stimulation at the wound site activates the migration of skin and other granulation cells to the site, induces blood vessel formation and controls excessive inflammation. As a result, wearable EF stimulation devices have been devised which have shown improvements in wound healing times. However, the bulkiness and inflexibility of their conventional electrodes result in conformational incompatibility with the wound, which increases the potential for inflammation and prolonged healing. The fabrication of these electrodes also requires dedicated technologies.

A collaborative team from the Terasaki Institute for Biomedical Innovation has developed a ‘smart’ flexible electric patch (ePatch) which fully addresses the challenges posed by existing EF stimulation devices and offers many uniquely advantageous features.

The team first chose silver nanowires as electrodes, which not only provide antibacterial properties but also deliver high conductivity under strain. They next chose to embed the electrodes in alginate, a gelatinous substance which maintains good moisture levels and biocompatibility and is presently used in absorbent surgical dressings.

By a chemical modification of the alginate and the addition of calcium, they were able to produce a material that would increase electrode stability and function. By further adjustment of the silver nanowire/modified alginate ratio, they were able to obtain a flexible, precisely printable gel, or bio-ink, which would produce a patch with customizable conformity to various wound shapes and sizes. In addition, the calcium which was added to the mix induced cell proliferation and migration to the wound site, which in turn would promote blood vessel formation.

To fabricate the e-Patch, a template was layered onto a silicone sheet and the bio-ink was deposited onto the template. Upon solidification of the bio-ink, the template was removed.

“By careful selection of the materials and optimization of our gel formulation, we were able to develop a multifunctional, easy to make, and cost-effective e-Patch which will greatly facilitate and accelerate wound healing,” said TIBI researcher Han-Jun Kim, Ph.D., DVM.

The beneficial qualities of the e-Patch which the TIBI team developed was validated by several sets of experiments. Mechanical tests demonstrated that the e-Patch exhibited improved electrode stability and conductivity, and strain tests results showed good tolerance, on a level needed for normal skin deformation.

Tests conducted on cells cultured on the e-Patch showed that e-Patches pulsed with EF stimulation exhibited significantly faster cellular proliferation, migration, aggregation and alignment, as well as an increased secretion of growth factors – all factors which contribute to faster wound healing.

Animal model studies on rats with open wounds were conducted and the results showed that significantly accelerated wound healing results were obtained with the e-Patch. Not only did the EF stimulated e-Patch exhibit more rapid progression of the wound-healing steps, but there was also a more directional healing process, resulting in minimal scarring, deposition of normal skin layers and hair growth following wound closure.

Related UMich Researchers Develop Japanese Kirigami Influenced Sensor Patch for Injury Recovery and Athlete Training

Other experiments confirmed the antibacterial properties of the silver nanowire electrodes used in the e-Patches and this property was shown to be independent of the amount of EF stimulation applied.

Still other experiments tested cellular adherence to the silicone component of the e-Patch, and it was found that the silicone provided an effective, non-stick surface for cells. This feature helps to ensure that there is less skin damage and excessive scarring.

“Our ePatch offers an unprecedented combination of optimum features for accelerated wound healing,” said TIBI Director and CEO Ali Khademhosseini, Ph.D. “It is one of the many fine examples of the work that we do in our personalized biomaterials platform.”

E Ink, a global leader in digital paper technology, today announced the launch of E Ink Spectra 3100 Plus five-color ePaper. Spectra 3100 Plus adds bright orange to the existing four colors (black, white, red, and yellow) of the previous generation. The combination of five vivid and saturated colors creates a more eye-catching display, which will help retailers improve their marketing and advertising performance. E Ink Spectra 3100 Plus offers a variety of display sizes, including 1.64-inch, 2.36-inch, 3-inch, 4.37-inch, 7.3-inch, and 8.14-inch, allowing retailers to choose a suitable size of five-color ePaper for different application scenarios.

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Based on the E Ink Spectra 3100 four-color ePaper platform (black, white, red, and yellow), E Ink Spectra 3100 Plus adopts a new waveform to display the fifth color, orange. In addition to offering a wide range of solid and saturated colors, E Ink Spectra 3100 Plus can create a partial image flashing effect, E Ink Sparkle, when E Ink Spectra 3100 Plus is equipped with the relevant All-in-One Driver IC. E Ink Sparkle can enhance the effect of advertising messages through this motion, and help retailers achieve better results for their product promotions.

“Since its launch in 2013, the E Ink Spectra series ePaper has been well received by the retail industry. We have gradually designed and developed the series from three-color and four-color to our latest release of E Ink Spectra 3100 Plus, five-color ePaper, which shows our strong R&D capabilities in color ePaper technology. We have continued to improve our R&D based on the feedback from ecosystem partners and end customers, so we can develop color ePaper technology that meets business needs and is closer to user values. The E Ink Spectra series allows ePaper signage and Electronic Shelf Labels in the retail market to be eye-catching as well as energy-saving and eco-friendly,” said Johnson Lee, CEO of E Ink Holdings, reports BusinessWire.

Digital transformation has driven retailers to accelerate the adoption of Electronic Shelf Labels (ESLs). Over the past seven years, 600 million ESLs of around three inches in size have been installed worldwide. If we assume that the price and information changes four times a day, single-use paper price tags would create 32,000 times CO2 versus ESLs. Electronic Shelf Labels can not only reduce the consumption of environmental resources but can also help significantly reduce CO2 emissions versus traditional signage, contributing to more environmental sustainability.

Related Toppan Printing’s Electronic Paper Display Is Powered by Energy Harvesting Technology

About E Ink Holdings

E Ink Holdings Inc. (8069.TWO), based on technology from MIT’s Media Lab, has transformed and defined the eReader market, enabling a new multi-billion dollar market in less than 10 years. E Ink’s low power products are ideal for IoT applications ranging from retail, home, hospital, transportation and more, enabling customers to put displays in locations previously impossible. The Company’s corporate philosophy aims to deliver revolutionary products, user experiences and environmental benefits through advanced technology development. This vision has led to its continuous investments in the field of ePaper displays as well as expanding the use of its technologies into a number of other markets and applications including smart packaging and fashion. Its Electrophoretic Display products make it the worldwide leader for ePaper. Its Fringe Field Switching (FFS) technologies are a standard for high-end LCD displays and have been licensed to all major liquid crystal display makers in the world. Listed in Taiwan’s Taipei Exchange (TPEx) and the Luxembourg market, E Ink Holdings is now the world’s largest supplier of ePaper displays.

UK-based Virtual Reality (VR) startup Moonhub has launched an immersive VR platform used to train social and health care workers in caring for dementia patients.

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Called Elara, the platform deploys a 360-degree, video-shot VR world to help professionals conduct enhanced patient care.

Elara brings a new approach to traditional classroom and eLearning methods; empowering healthcare professionals to enhance patient care through a patented highly-immersive, low-risk VR training program, reports BBH.

“Dementia affects everyone differently and can be a very-distressing experience” said Claire Surr, Professor of Dementia Studies and director of the Centre for Dementia Research at Leeds Beckett University, who co-curated Elara’s new training program.

“Staff must have an understanding of how people with dementia might see the world, and the impacts of what other people say and do, as well as the physical environment on the person’s wellbeing and behavior.

“The VR training I have helped curate places staff in realistic care scenarios to help them develop the skills and knowledge to prevent or reduce distress.

“Research indicates experiential dementia training like this can help increase their empathy and understanding, potentially improving the quality of care staff deliver, and we hope VR will offer an exciting avenue for providing experiential learning opportunities.”

Moonhub’s researchers found that VR technology helps workers retain knowledge 75% more than online and class-based learners.

The training course guides workers on how to better communicate or recognize distress. It also uses role play to train, such as helping dementia patents prepare for the day.

Dami Hastrup, founder and chief executive of MOONHUB, said: “The pandemic has shone a spotlight on health and social care, highlighting its strength and resilience during the most troubling of times.

“We immediately recognized the importance of social care and the need for investment and development in the future and when we first started building the program, we wanted to ensure we had the right resources and expertise to offer a state-of-the-art experience to those training in the healthcare sector.

Related Wearables Can Help the Elderly Manage Heart Disease and Early Detect Alzheimer’s

“We believe dementia education and training for the health and social care professionals is vital and we’re incredibly excited to be the first to offer an immersive and accessible solution to upskill learners with the appropriate person-centered care through the power of VR”.

The technology is remotely deployable, and does not require physical spaces to execute. Therefore, learners can train anytime, anywhere.

HealthBeats, a Singapore-based healthtech start-up with end-to-end remote vitals monitoring solution, today announced the close of a US$3m Seed round led by healthcare investor Heritas Capital together with SEEDS Capital, the investment arm of government agency Enterprise Singapore.

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The HealthBeatsTM Remote Vitals Monitoring platform provides healthcare providers and patients with a simple-to-use and simple-to-deploy solution to remotely monitor patients at home using clinical-grade medical devices. The user-friendly platform supports a wide range of diseases using regulatory approved devices from multiple brands, and covering various vitals such as temperature, blood oxygen saturation, blood pressure, blood glucose, body weight and more. Vitals are transmitted real-time to healthcare providers for proactive care management, says a press release.

According to a large-scale Commonwealth Scientific and Industrial Research Organization (CSIRO) telehealth study funded by the Australian government, remote monitoring of chronic diseases has the potential to save up to A$3 billion a year through reduction of avoidable admission by 53.2% and reduction in rate of length of stay by 75.7%. Australian healthcare providers have also demonstrated positive clinical outcomes from the deployment of HealthBeats Remote Vitals Monitoring solution with some of them reporting reductions in avoidable hospital admissions by up to 50%. The HealthBeats platform has also defied common belief that elderly chronic patients are less technological savvy with the largest pool of patients being aged 61 and above, with those aged 81 and above achieving the highest adherence even after 6 months.

HealthBeats has deployed its Remote Vitals Monitoring solution to 30 hospitals and clinics across Australia, working with various Primary Health Networks (PHNs) and Local Health Districts (LHDs) supporting various use cases such as chronic disease management, post-hospitalisation, emergency response for Covid-19 and clinical trials.

“At HealthBeats, we believe that regular monitoring both within and outside of institutional healthcare settings can only lead to better outcomes. We aim to work through the healthcare industry’s inherent complexities to offer simple solutions and remain the platform of choice by healthcare providers and patients alike. We are fortunate to post positive cashflow and profitability by third year of our operations in 2021, made possible from strong trust and support from our customers, partners and most importantly, our team members. This Seed funding round will help boost our current strong growth momentum as we continue to deliver stellar value to our stakeholders through the acceleration of our product development and business development efforts,” said Ms. Aileen Lai, CEO and Founder of HealthBeats. “We are excited to embark on our next stage of growth in partnership with Heritas Capital & SEEDS Capital.”‍‍‍‍

“Heritas Capital invests in high-impact ventures across the healthcare space, especially tech-enabled solutions that are scalable in addressing underserved needs. The COVID-19 pandemic has created the urgent need to support our healthcare professionals and caregivers effectively with fit-for-purpose tools for enabling alternate sites-of-care especially in hospital-home community settings. We envision that HealthBeats is well-positioned to enhance and deliver a best-in-class remote patient monitoring platform as an integral part of value-based healthcare infrastructure beyond the pandemic,” said Ms. Janet Chia, Principal and Head of Venture Capital at Heritas Capital.

Related Scientists From NTU Singapore Develop AI System For High Precision Recognition of Hand Gestures

“The solutions provided by homegrown startup HealthBeats are designed to meet the growing demand for remote monitoring solutions and gradual shift from provider to patient-centric solutions in today’s healthcare climate. SEEDS Capital is delighted to partner Heritas Capital to support HealthBeats in building the platform’s core capabilities and expanding the use of its solution across markets. Beyond assisting the company in enhancing its technology through further R&D in Singapore, we look forward to supporting HealthBeats as it strengthens its foothold in Australia and expands into new markets like the United States,” said Tan Kaixin, General Manager of SEEDS Capital.

About HealthBeats

HealthBeatsTM is a global Remote Vitals Monitoring platform designed to bring healthcare home. We provide patients with medical devices from multiple brands to be self-administered regularly at home and have their results transmitted real-time to their healthcare providers for proactive care management.

We build HealthBeats based on our belief that regular monitoring outside of healthcare settings can only lead to better outcomes. Through our collective and extensive experiences across the healthcare industry, we endeavor to work through the inherent complexities to bring simple solutions to patients and healthcare providers alike. HealthBeats is all about simplicity.

Digital Musculoskeletal Clinic Hinge Health announced the launch of a Women’s Pelvic Health program, setting a new standard for nationally accessible and clinically validated pelvic healthcare. The program is delivered by a comprehensive care team specializing in women’s health, available in all 50 states, and accessible via a member’s existing Hinge Health app.

“Pelvic Floor Disorders are one of the most common health challenges women face, yet it remains one of the most underserved needs by our current healthcare system”

Related Hinge Health Acquires Computer Vision Technology Wrnch To Boost Its Motion Tracking Capabilities

One in four women has a pelvic floor disorder. Most women don’t receive treatment due to a lack of awareness, stigma, and inadequate ​​access to pelvic floor physical therapists resulting in an average of more than six years before receiving care for certain conditions, reports BusinessWire.

“Pelvic Floor Disorders are one of the most common health challenges women face, yet it remains one of the most underserved needs by our current healthcare system,” said Karen Stander, vice president of physical therapy, Hinge Health. “Today’s launch represents a milestone in providing women everywhere with urgent access to world-class pelvic health care, empowering them to take control of their health during important life events.”

The Hinge Health Women’s Pelvic Health program member experience includes:

• Care for the unique musculoskeletal needs of women: including prolapse, abdominal separation (diastasis recti), bladder and bowel problems, and chronic pelvic pain. The pathway supports women at all stages of life including pregnancy, postpartum, and menopause when pelvic disorders are most common.
• Comprehensive care team: same day video visits with highly trained pelvic floor physical therapists who customize digital exercise programs, women’s health coaches to spur lifestyle modifications, and urogynecologists to support care escalations.
• A single platform for all MSK care: all care is accessible within a member’s existing Hinge Health platform experience. Pelvic floor disorders frequently co-occur with other MSK pain, such as hip and back pain, requiring coordinated care. A single platform enables comprehensive whole-body treatment and unprecedented flexibility.
• Proactive education and engagement: pelvic health education is integrated across all Digital Clinic offerings, to increase awareness and tackle stigma, ensuring members get needed care earlier. In addition, Hinge Health care teams proactively identify high-risk members who would benefit from a pelvic health assessment via HingeConnect’s integration with nearly 1 million in-person providers.‍‍

Related Musculoskeletal Startup Hinge Health Launches HingeConnect to Integrate With Users’ EMRs

The Women’s Pelvic Health program will be available to all customers of Hinge Health, currently totaling 15 million lives across 700 employers and health plans, creating the world’s largest community with access to digital pelvic care.

About Hinge Health

Hinge Health is building the world’s most patient-centered Digital Musculoskeletal (MSK) Clinic™. It is now the leading Digital MSK Clinic, used by four in five employers and 90% of health plans with a digital MSK solution. Hinge Health reduces MSK pain, surgeries, and opioid use by pairing advanced wearable sensors and computer vision technology with a comprehensive clinical care team of physical therapists, physicians, and board-certified health coaches. Hinge Health’s HingeConnect integrates with nearly 1 million in-person providers and enables real-time interventions for elective MSK surgeries, driving proven medical claims reduction. Available to millions of members, Hinge Health is widely trusted by leading organizations, including Land O’Lakes, Salesforce, Self-Insured Schools of California, Southern Company, State of New Jersey, US Foods, and Verizon.

The EZYPRO®ECG Recorder—is a compact and lightweight ambulatory cardiac monitoring patch that continuously records single-lead ECG signals for up to 14 days. Its wire-free water-resistant design allows patients to conduct daily activities unimpeded, maximizing user compliance.

EZYPRO’s14-day patch monitor provides insight into a longer period of cardiac activities, yielding clinically actionable data that enables doctors to make informedarrhythmia diagnosis that serves as the backbone for personalized patient care to preempt severe and costly health conditions, such as stroke or other cardiovascular complications.

SigknowBiomedical’s professional software team independently developed an ECG analysis software, which has been certified by the TFDA. The software is equipped with built-in algorithms to accurately identify ECG signals. By using big data analysis with AI machine learning, in combination with professionals at the ECG analysis center, the software provides accurate analysis reports that assist cardiologists in making arrhythmia diagnoses and devising precise treatment options for patients.

Want to learn more about Sigknow? Visit their webpage or meet them at the WT | WearableTechnologies Pavilion at MEDICA 2022!

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Biofourmis, a global leader in virtual care and digital medicine, today announced it has surpassed unicorn status with a $300 million Series D investment led by leading global growth equity firm General Atlantic. CVS Health and existing investors also participated in the round, which will help fuel the company’s next phase of growth. Biofourmis also announced that former Medtronic CEO and Chairperson at Intel, Dr. Omar Ishrak, will join the company’s Board of Directors as Chairman.

Related Biofourmis Raises $100 Million In Series C Funding To Accelerate Global Expansion

With this investment, Biofourmis plans to scale up its virtual care offerings. This includes delivering personalized and predictive in-home care to a growing number of acutely ill patients and expanding its recently announced virtual specialty care services, Biofourmis Care, to those patients with complex chronic conditions. In parallel, Biofourmis plans to fund clinical trials to advance the development of digital therapies that work in conjunction with high-value drugs to improve efficacy, while forming strategic partnerships with companies in the digital health and virtual-first care ecosystems. Through these relationships, Biofourmis plans to accelerate the growth of its virtual care platform, Care@Home, which enables providers and payors to remotely manage patients across the entire care continuum.

Biofourmis also aims to use the funding to continue strengthening its position in the value-based care market. Value-based care ties payments to quality of care and patient outcomes, rewarding providers for efficiency and effectiveness. According to McKinsey, $265 billion worth of care services for Medicare FFS and MA beneficiaries could shift from traditional facilities to the home by 2025, creating value for multiple parties, including care at home providers and technology companies, the company said in a press release.

Long touted as a technology that’s “going to break through tomorrow,” traditional remote patient monitoring (RPM) solutions have fallen drastically short of patient needs, often focusing on ‘monitoring’ as opposed to the proactive ‘management’ of patient populations. As a result, while clinical care teams glean information, they are typically left with few insights and almost no actionable clinical interventions. Because traditional RPM solutions tend to fail to view patients as unique subjects, alarm burden and fatigue are commonplace, as they focus on comparing a patient’s vitals to norms of the population at large and subsequently informing clinicians of warning signs. Furthermore, traditional solutions do not include licensed health professionals who can provide high-quality clinical care to improve patient outcomes and reduce the total cost of care.

Biofourmis solutions instead use a blend of passive inputs via continuous monitoring devices, active inputs from episodic monitoring devices, and patient feedback on activity driven through the Biofourmis app to get a complete picture of the patient’s status. Designed to be used at home, in acute, post-acute, and chronic care, Biofourmis’ game-changing solution compares the patient as they are today to their normal state. Leveraging its core expertise in data science and novel biomarkers, Biofourmis can detect clinical deterioration early on and offer dynamic care pathways that guide therapeutic interventions. The device- and sensor-agnostic solutions use artificial intelligence (AI) and advanced FDA-approved analytics to dynamically monitor patients, establish personalized baselines, and reduce false positives. Through its 24/7 virtual clinical care team, Biofourmis’ licensed health professionals can promptly confirm and respond to these alerts while communicating medication changes and updated care plans with primary care teams to ensure patient care is well coordinated.

“In recent years, we have seen a significant trend towards virtual at-home care, which has become a critical alternative to in-person care, particularly as digital adoption continues to accelerate,” said Sandeep Naik, Managing Director and Head of India & Southeast Asia at General Atlantic. “Biofourmis is tapping into this global trend with a new approach to remote care management.”

Robbert Vorhoff, Managing Director and Global Head of Healthcare at General Atlantic, added, “We believe Biofourmis is differentiated by technology solutions underpinned by its deep clinical research. Beyond providing key patient health insights to health systems, Biofourmis is also driving personalized treatment and better outcomes.”

Biofourmis’ app drives high patient engagement and compliance resulting in hospitals experiencing a 70% reduction in 30-day hospital readmissions and reduces the cost of care by 38%, all without impacting the quality of care.

“We are excited to partner with General Atlantic, which shares our vision for the future of virtual care and the urgency to bring the Biofourmis solution to customers and patients across the globe,” said Kuldeep Singh Rajput, Founder & Chief Executive Officer of Biofourmis. “We are also thrilled to have Dr. Ishrak join our board. His vast experience, which includes leading one of the world’s most successful medical technology companies, will be an incredible asset as we look to take our business to the next growth phase.”

Related Biofourmis Receives FDA Breakthrough Device Designation for Novel Digital Therapeutic for Heart Failure

“I’m thrilled to join Biofourmis as Chairman of the Board at this exciting time in the company’s rapid rise as a leading innovator in virtual care and digital medicine,” Dr. Ishrak said. “Biofourmis continues to push the boundaries as it evolves virtual care from reactive to predictive models that deliver continuous care and better health outcomes to patients while improving efficiencies and lowering costs for healthcare organizations. It’s a win-win that is a true differentiator in the market.”

To date, Biofourmis has raised a total of $445 million in funding. Existing investors include SoftBank Vision Fund 2, Openspace Ventures, Mass Mutual Ventures, Sequoia Capital and EDBI.

About Biofourmis

Biofourmis, based in Boston, is a global leader in providing advanced technology and clinical support for Care@Home and digital therapies. We are driven by a passion to personalize care and predict clinical worsening before it happens. Our clinically validated platform, powered by machine learning and advanced analytics, enables better healthcare, maximizes the effectiveness of high-value drugs, and lowers costs across the entire care continuum.

Sequans Communications announced that Infrafon is using its Monarch cellular IoT technology to connect its award-winning Infrafon CC1 Smart Badge, an intelligent name tag introduced earlier this year at Mobile World Congress.

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The Infrafon CC1 Smart Badge is a computerized name tag with smartphone functions that are fully controlled in the cloud. It can be worn as a wearable on clothing where it can ensure visual identification of the wearer through its e-paper display, and can contain a wide variety of desired information, including personalized credentials, appointment details, healthcare data, geofencing parameters, NFC credentials, and more. Sequans’ Monarch 2 GM02S LTE-M/NB-IoT module provides the cellular IoT connectivity that enables the Infrafon Smart Badge to remain always connected via the highly reliable LTE-M cellular network, according to a press release.

“The Infrafon Smart Badge is a truly innovative personal communication system with a multitude of uses, for example, in healthcare and workplace safety,” said Louis Chuang, EVP of Sequans’ Massive IoT Business Unit. “It can perform all of the advanced smartphone functions you can imagine, but without the need of a smartphone, making it one of the most interesting IoT connected devices we’ve seen this year.”

“We selected Sequans’ Monarch module to connect our Smart Badge because it is the most advanced cellular IoT connectivity solution available today, with unmatched low power consumption, highly secure iSIM, and proven reliability,” said Frieder Hanson, Infrafon founder and CEO. “The ultra-low power consumption of Monarch allows the Smart Badge to run for many days without user intervention, making it extremely simple to use, which was one of our most important design goals.”

The Infrafon CCI is a tiny CC1 smart badge device that weighs only 50g, close to credit card size, and is equipped with a high res 600×480 pixel interactive e-paper screen. All familiar smartphone functions can be managed remotely OTA and centrally by the operator. The device user can interact with multiple DataView tasks or can answer questions. Device users have no access to the device´s functional setup details. This Infrafon design principle provides stability and efficiency to the operator´s processes.  For more information, visit the Infrafon CCI web page.

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Infrafon is using Sequans’ second-generation LTE-M/NB-IoT module, Monarch 2 GM02S, that delivers ultra-low power consumption and a very high level of security. Monarch 2 GM02S is the world’s only cellular IoT module supporting an EAL5+ secure enclave for integrated SIM (ieUICC) capability that is compliant with GSMA standards. The module also supports a single rail power supply starting at 2.2 V, the lowest level in the industry, allowing for better efficiency of the internal power management unit, further reducing power consumption, and lowering battery and BOM costs.  For full product details, visit Sequans’ Monarch 2 GM02S web page.

About Sequans

Sequans Communications is a leading developer and supplier of cellular IoT connectivity solutions, providing chips and modules for 5G/4G massive and broadband IoT. For 5G/4G massive IoT applications, Sequans provides a comprehensive product portfolio based on its flagship Monarch LTE-M/NB-IoT and Calliope Cat 1 chip platforms, featuring industry-leading low power consumption, a large set of integrated functionalities, and global deployment capability. For 5G/4G broadband IoT applications, Sequans offers a product portfolio based on its Cassiopeia Cat 4/Cat 6 4G and high-end Taurus 5G chip platforms, optimized for low-cost residential, enterprise, and industrial applications. Founded in 2003, Sequans is based in Paris, France with additional offices in the United States, United Kingdom, Israel, Hong Kong, Singapore, Finland, Taiwan, South Korea, and China.

No one would ever imagine crumpling up their smartphone, television or another electronic device. Today’s displays – which are flat, rigid and fragile – lack the ability to reshape to interactively respond to users.

As part of an overarching quest to build “skin-inspired” electronics that are soft and stretchy, Stanford University chemical engineer Zhenan Bao and her research team have been developing a display to change that. Now, after more than three years of work, they show the proof of principle toward a stretchable, potentially reshapable display in a new paper published March 23 in Nature.

Related Samsung Develops Stretchable Electronic Skin for Monitoring Heart Rate

Their invention hinges on the discovery of a method to produce a high-brightness elastic light-emitting polymer, which functions like a filament in a lightbulb. The group’s resulting display is made entirely of stretchy polymers – synthetic plastic materials. The device has a maximum brightness at least two times that of a cellphone and can be stretched up to twice its original length without tearing, reports McKenzie Prillaman in Stanford News.

“Stretchable displays can allow a new way of interactive human-machine interface,” said Bao, the K. K. Lee Professor in the School of Engineering and senior author of the paper. “We can see the image and interact with it, and then the display can change according to our response.”

An illuminating discovery

Most light-emitting polymers are stiff and crack when stretched. Scientists can increase their flexibility by adding elastic insulating materials, such as rubber. But these additives decrease electrical conductivity, which requires the polymer to use a dangerously high voltage to generate even dim light.

About three years ago, however, postdoctoral scholar Zhitao Zhang discovered that a yellow-colored light-emitting polymer called SuperYellow not only became soft and pliable but also emitted brighter light when mixed with a type of polyurethane, a stretchy plastic.

“If we add polyurethane, we see SuperYellow form nanostructures,” said Zhang, the first author of the study. “These nanostructures are really important. They make the brittle polymer stretchable, and they make the polymer emit brighter light because the nanostructures are connected like a fishnet.”

Unlike adding rubber, the interconnected net of nanoscale fibers that make the SuperYellow stretchy don’t inhibit electricity flow – which is key to developing a bright display. After this discovery, the group also created elastic red, green and blue light-emitting polymers.

Stacking the layers

With stretchable light-emitting polymers now available, the group needed to layer together the remaining ingredients of an electronic display.

“It was really challenging to figure out the right materials to use,” Bao explained. “Electronically, they have to match each other to give us high brightness. But then, they also need to have similarly good mechanical properties to allow the display to be stretchable. And finally, for the fabrication, Zhitao had to figure out a way to stack the layers together so that the process will not degrade the brightness.”

The final display contains seven layers. Two outer layers are two substrates that encapsulate the device. Moving inward are two electrode layers, each followed by charge transporting layers. Finally, the light-emitting layer sits sandwiched in the center.

When electricity runs through the display, one electrode injects positive charges, called holes, into the light-emitting layer while the other injects negatively charged electrons into it. When the two types of charges meet, they bond and go into an energetically excited state. Almost immediately after, the state returns to normal by producing a photon – a particle of light.

The resulting all-polymer film can be adhered to an arm or finger and doesn’t rip during bending or flexing. This will allow wearable trackers to have their display directly attached to the skin.

Related Chinese Researchers Develop Wearable Electronic Textiles With a Large-Area Display

Bao sees a variety of additional potential uses for a stretchable display. It could be used to produce reshapable interactive screens or even form three-dimensional landscapes on a map.

“Imagine a display where you can both see and feel the three-dimensional object on the screen,” Bao said. “This will be a completely new way to interact with each other remotely.”

Related With The Next Gen Of Wearables, Athletes Will Alter The Way They Fuel For Sport

“From our perspective, being an athlete is about your mindset and identity,” said Plantiga’s co-founder and CEO, Quin Sandler. We’re launching this membership to help athletes move more efficiently, helping them reduce and recover from injury to reach their competitive goals.”

Years of testing and validation from the world’s top human performance organizations, from NBA teams to the Military, have allowed Plantiga to expand access to athletes who run, jump and use impact activities in their training and competition. “Our 1:1 coaching and data analysis is core to our offering,” said Sandler. Plantiga’s movement coaches are highly credentialed biomechanists, kinesiologists, and strength and conditioning coaches. They work within an athlete’s current training and coaching team to provide an additional layer of insight into how movement plays a role in their training and racing load, says a press release.

The cost of Plantiga’s membership is $30/month plus the one-time charge for the proprietary Plantiga insoles and hardware platform. The membership launch comes after securing recent financing and adding athlete investors like Thaddeus Young of the San Antonio Spurs and Will Fuller of the Miami Dolphins to their team.

Plantiga, a movement diagnostics company, today launched its exclusive membership program designed for goal-driven athletes who use impact-based activities, such as running and jumping in their training and competition. Plantiga’s proprietary technology, data analytics, and personalized coaching allow athletes to reduce and recover from injury and reach the startline of their next event more prepared than ever before.

“We’re building much more than wearable devices. Our members join a community of athletes driven to live longer and healthier lives. We place the human at the center of everything we do through dedicated coaching so that our members not only understand their data but can apply it to their unique goals.” said Sandler.

The impressive roster of individual athletes who use Plantiga to maximize performance includes Olympians Cynthia Appiah and Andre De Grasse and professional triathlete Rach McBride.

Related How Wearables are Helping Athletes Enhance Their Performance

“Using Plantiga allows me to get feedback from my body before I notice anything is wrong. The data I receive is so robust, it helps to identify tightness, asymmetries, and changes in my gait well before I see them and before they become pathologic,” said McBride.

About Plantiga

Plantiga is a human movement health company that reduces injury risk, improves health, and boosts performance through better movement. The Plantiga membership comes with smart insoles, 1:1 coaching, education from leading human performance experts, and a community of driven athletes and high performers. Plantiga customers include professional and Olympic athletes, military organizations, NCAA programs, and teams in the NBA, NFL, NHL, MLB, and MLS.

Researchers from Western Sydney University, in consultation with Liverpool Hospital, have developed tools to help trainee surgeons master intricate surgical procedures.

Gough Lui, a biomedical engineer at Western’s MARCS Institute for Brain, Behavior and Development, has worked closely with Liverpool Hospital for a number of years. “We get engineers to sit in with clinicians to identify problems and inspire solutions that can really make a difference,” he says. In one of these sessions, Clinical Dean and Foundation Professor of Surgery and Colorectal Surgery, Professor Les Bokey, discussed with Lui the possibility of training surgeons in a more objective and evidence-based manner to ensure evidence-based competency.

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A big hurdle is that the surgical skills needed now are more complex than in previous decades. Surgeons must master open surgery, keyhole surgery with cameras, and robotic surgery, for instance. But while techniques have advanced, teaching methods have not greatly changed. In training, an experienced surgeon watches over the student’s shoulder, giving feedback. “Often they say, ‘that wasn’t very good,’ but can’t concretely articulate what is wrong,” says Lui. “That’s very frustrating when you’re trying to master a skill, but not seeing a way forward.”

One positive advance in training has been that students can now practice on simulators. But these are hugely expensive, and trainees in typical hospitals rarely have easy access.

To solve the problem, Lui has developed surgical gloves containing electronics to record the subtle, fast and controlled hand movements of skilled surgeons. When worn by students, the gloves can monitor how their hand motions differ from the experts’. Lui hopes that the gloves will eventually be coupled with a smartphone app, so trainees can practice tasks at home, for as little as $100 — a fraction of the cost of a simulator, reports Western Sydney University.

Creating the perfect gloves is a work in progress. At first, Lui placed electronics on the back of the glove, to detect acceleration and hand orientation, and added force-sensors in the fingertips. But experienced surgeons reported that they reduced their touch sensitivity and were too bulky, hindering movement. Lui has looked at alternatives including the use of force sensors further up the forearm and motion sensors on the back of the hand for an upgraded version.

“Now we have a tool that can assist in objectively measuring the intricate hand maneuvers,” says Bokey. Trainees who have participated in the development of the prototype can readily appreciate their potential contribution to training. Lui laughs that students even loved the clunky early version. “They are excited because they can see the promise,” he says.

Related This Smart Glove Interprets Sign Language In Real Time

Lui is working out how best to deliver useful instructions to trainees. The gloves collect motion data and relay them to a screen, where even the tiniest jitters are visualized. This can be distracting to students concentrating on difficult tasks. Alternatives include ‘haptic’ feedback — the fingertips buzz — or audio feedback to guide trainees along the right path. But Lui is cautious in case students become overly reliant on the technology. “In reality, human debriefing is always better than computer feedback alone,” he says. “This is not a replacement for trainers, but it will augment their ability to give advice.”

The plan is to do a pilot trial in mid-2020, says Lui. If successful, the gloves could have unexpected uses. “We’ve already had requests from musicians asking if these gloves could help people become more skilled performers,” says Lui. “They could have a wider impact than we ever hoped.”

Mojo Vision announced its most advanced prototype of Mojo Lens, the world’s first true smart contact lens, including an array of new, industry-first features.

The Mojo Lens prototype is a critical milestone for the company in its development, testing and validation process, and is an innovation positioned at the intersection of smartphones, Augmented Reality/Virtual Reality, smart wearables and healthtech. The prototype includes numerous new hardware features and breakthrough technologies embedded directly into the lens — advancing its display, communications, eye tracking, and power system.

Related: Apple Could Release Augmented Reality Glasses and Contact Lenses Within a Decade

Over the past two years, Mojo has also been investing in various software experiences for Mojo Lens. In this new prototype, the company has built foundational operating system code and user experience (UX) components for the first time. The new software will allow for further development and testing of important use cases for consumers and partners.

This new Mojo Lens prototype will further accelerate the development of Invisible Computing, a next-generation computing experience where information is available and presented only when needed. This eyes-up experience allows users to access timely information quickly and discreetly without forcing them to look down at a screen or lose focus on the people and the world around them, says a press release.

Mojo has identified initial compelling consumer uses of Invisible Computing for performance athletes and recently announced strategic partnerships with leading sports and fitness brands, such as Adidas Running, to collaborate on eyes-up, hands-free experiences. Mojo has been working with its new partners to find unique ways to improve athletes’ access to in-the-moment data or during data. Mojo Lens can give athletes a competitive edge, allowing them to stay focused on their workout or training and maximize their performance, without the distraction of traditional wearables.

“Mojo has created advanced foundational technologies and systems that weren’t possible before now. Innovating the new features in the lens is a tremendous amount of work, but successfully bringing them all together into an integrated system in such a small form factor is a considerable achievement in cross-disciplined product development,” said Mike Wiemer, VP of Engineering, CTO and co-founder of Mojo Vision. “We are excited to share our progress and can’t wait to start testing Mojo Lens in real-world scenarios.”

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India’s leading digital health platform MFine announced a groundbreaking innovation by bringing Blood Pressure and Glucose monitoring on a smartphone. These will be added to MFine’s suite of self-check health tools available on its app, eliminating the need of any external devices to measure and track these health vitals.

Related Amrita University Launches Wearable For Home Monitoring of Glucose and Blood Pressure

Launched three weeks ago in beta, the BP monitoring tool has already been used by more than 10,000 users and is clocking over thousands of readings everyday by users from across the country.

According to a press statement, these health monitoring features are built with MFine’s proprietary algorithm that measures blood pressure and glucose level by obtaining PPG signals from a user’s fingertip. A smartphone camera and flash are used to observe the changes in the red and blue wavelengths of the PPG signals and come up with a reading. The company claims its algorithm for measuring BP scores an accuracy “close to 90%”, reports MobiHealthNews.

At present, the new vital measurement features are available on the MFine app for select Android phones and will soon come to iOS devices.

“Advances in the areas of big data, artificial intelligence and mobile technology have opened new opportunities for monitoring health, detecting and preventing diseases using smartphones,” said Ajit Narayan, CTO of MFine. Mr. Narayan believes this would help make basic health assessments universal, easy and free to use for millions of people in India.

India is currently experiencing a massive increase in non-communicable diseases (NCDs) and bears a higher burden than most nations, particularly in cardiovascular and chronic respiratory diseases, hypertension and diabetes. There are more than 200 million diagnosed hypertension patients in the country who have limited access to BP (blood pressure) measuring tools for use at home.

Related Penn State Researchers Develop Wearable Non-Invasive Glucose Monitor

Similarly, there are over 80 million diabetes patients and 200 million pre-diabetic people in India who primarily monitor their glucose levels by using invasive and time-consuming blood tests.

One in five people worldwide is affected by chronic pain. Back pain is particularly common. This pain is often treated with medication – with the risk of severe side effects. Auricular vagus nerve stimulation (aVNS) can be used to treat pain without these side effects. How it works? The aVNS relieves pain without the well-known side effects of medication. The minimally invasive method works with three small needle electrodes that a doctor places in the auricle. The vagus nerve is electrically stimulated via these electrodes. The stimuli are transmitted directly to the brain, where they stimulate the body's own mechanisms for pain relief. The aVNS therapy using VIVO allows the treatment to be adjusted depending on personal pain perception and thus promises lasting results. By using three small needle electrodes in the auricle, aVNS therapy using VIVO is minimally invasive and well tolerated compared to medication.  

Want to learn more about Aurimod? Visit their website or meet them at the WT | Wearable Technologies Pavilion at MEDICA 2022!  

Singapore brand BUZUD, Fosun Trade Medical Device, a leading manufacturer of medical appliances, has announced its next-generation smartwatches DM01 and DM02 that can detect blood oxygen levels and monitor sleep quality with its SpO2 technology.

The feature-rich smartwatches have highly sensitive sensors that provide accurate health data insights, for both consumers actively seeking to manage their wellness and health conditions, and for fitness enthusiasts, according to a press release.

SpO2 Oximeter Sensor detects sleep apnea

Developed together with medical professionals, the DM01 and DM02 have been validated in clinical studies and tested on 3,000 people in a clinical trial conducted by doctors. The SpO2 oximeter sensor measures oxygen saturation levels while the user is still or sleeping. The measurement of the percentage of oxygen in the blood, and sleep patterns help to determine if there is a dip in oxygen levels during sleep—which can mean a condition called sleep apnea. Sleep apnea is a sleep disorder where breathing is interrupted briefly and repeatedly.

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“Our DM01 and DM02 smartwatches enable the optimal monitoring of consumers’ health, unlocking the innovative ability to alert users that they might have sleep apnea, paving the way to help people better track and manage their health,” said Mr. Frankie Fan, founder, CEO and CTO of BUZUD, Fosun Trade Medical Device.

“These feature-rich smartwatches place powerful monitoring capabilities in a small form factor accessible on a wrist. Our innovations strive to help even more people manage their wellness and reach their fitness goals faster,” added Mr. Fan.

Feature-rich smartwatches in a sleek silhouette

Both watches showcase a sleek silhouette, with a variety of looks that allow users to express their unique individuality. The watches provide comprehensive health insights by monitoring in real-time blood pressure, blood oxygen level, heart rate, body temperature, and sleep pattern data. Other features include measuring the number of steps done, the distance covered and calories burned.

Designed with health and fitness in mind, the watches support 24 different sports modes to provide additional opportunities for fitness activities, with customizable functions that include training workouts, social apps support, and other information prompts.

Health and workout tracking

The DM02 smartwatch is the brand’s most advanced health and fitness tracker with a high-definition, 1.69” IPS (in-plane switching) full-color touchscreen and customizable watch face and strap colors.

The DM01 smartwatch is an affordable and versatile smartwatch for users who want an easy-to-use device with key features. Equipped with a color screen and responsive button, the stylish and customizable watch face allows consumers to stay focused on their health and fitness goals.

Both DM01 and DM02 provide insights into wellbeing through a Health Metrics dashboard by transmitting data via a Bluetooth 4.0 connection to a mobile app on both Android and iOS. This dashboard provides insights into health data and can help identify any changes in sleep patterns that can be caused by a lack of sleep or increased stress levels.

Through the Bluetooth connection, the DM01 and DM02 smartwatches support the receiving of text messages and call alerts from the mobile phone.

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“The growing global drive for healthier lifestyles amid this Covid-19 situation is prompting many to better manage stress and improve health. As a result, these smartwatches are part of our focus on introducing products that empower people to take proactive steps to be healthy both physically and mentally,” said Mr Fan.

Pricing and availability

Both DM01 and DM02 smartwatches are now available with the DM01 priced at S$94.16 and the DM02 priced at S$243.96 (GST included).

About BUZUD

BUZUD, Fosun Trade Medical Device is a Singapore-based medical appliance brand. The brand carries a variety of high-quality medical products of the latest and best technologies. Visit the showroom of BUZUD, Fosun Trade Medical Device, at Raffles Hospital to view the brand’s top-of-the-line medical appliances.

Zebra Technologies is demonstrating new industrial solutions that improve communications and efficiencies. The company has introduced its first all-in-one Android-based wearable computer, the new WS50, and its first RFID sled designed for industrial usage, the RFD90. In addition, Zebra is also showcasing its recently announced Fetch FlexShelf autonomous mobile robot (AMR) solution as well as several other in-booth demos focused on optimizing the fulfillment process and streamlining workflows.

Read more Zebra Technology Announces New Warehouse Solution to Increase Worker Productivity

Zebra’s innovative, all-in-one WS50 Android wearable computer is half the size of traditional wearables and includes a small display, WiFi and an imager or camera, eliminating the need for multiple devices supporting hands-free workflows, such as picking, sorting, loading, and put away. With powerful data capture capabilities and an integrated speaker and microphone, the WS50 supports task management and communication in warehouse, manufacturing, and retail environments. With the option of three different wearable styles including back of hand, wrist, or on the fingers, the ergonomic WS50 wearable computer provides users with the flexibility they need that’s right for the job, according to a press release.

Zebra’s new RFD90 RFID sled offers industrial-grade IP65 and 67 sealing and 6-foot drop specifications to concrete, making it ideal for use in extreme weather and tough environments. The RFD90 sled supports packaging and baggage tracking, cycle counting, cold chain, and item locating as well as raw materials inventory, work in progress (WIP) tracking, and returnable transport object (RTO) tracking. Featuring a long-lasting battery for lengthier shifts and industry-leading read rates, the RFD90 optimizes workflows and reduces task completion time resulting in greater productivity and a better user experience.

At MODEX 2022, Zebra will also be showcasing its recently announced fulfillment solution, featuring dynamic orchestration of equipped workers augmented by the latest FlexShelf series of autonomous mobile robots (AMRs), including the FlexGuide and RollerTop Guide. Both AMRs are purpose-built for maximizing pick productivity in e-commerce and wholesale operations where speed and accuracy are critical to meeting the increasing demand of customers. New FetchCore fulfillment software optimizes the human workforce and robot fleet, while intelligent safety features leveraging cloud-based machine learning algorithms help front-line workers, robots, and even forklifts work safely side-by-side.

In April 2022, Zebra will launch a new specialization track in its award-winning PartnerConnect program for experienced mobile robotics partners. Zebra’s Mobile Robotics specialization program will feature partners with deep mobile robotics, manufacturing, and warehouse expertise to provide businesses with the best possible automation solution.

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“The global pandemic created exponential growth in the industrial automation sector as businesses worked to scale their operations and stay on time with shipping demands, all while addressing labor shortages and high turnover rates,” said Mark Wheeler, Director of Supply Chain Solutions, Zebra Technologies. “Zebra’s solutions help businesses confidently accelerate their automation efforts through a single vendor, helping them address needs ranging from the movement of pallets from trucks to put-away locations, to the movement of pickers and cobots in diverse picking environments. By addressing these needs, companies are seeing increased productivity and worker satisfaction, reduced costs, and improved safety.”