Samsung gets FDA approval for a sleep apnea feature on Galaxy Watch

The Food and Drug Administration has given the green light to a sleep apnea detection feature on Galaxy Watch devices in the US, Samsung has revealed. The company notes this is the first approval of its kind in the US — South Korean officials previously rubberstamped the feature for use in that country.

Samsung plans to add the sleep apnea monitoring tool to compatible Galaxy Watch wearables in the third quarter of this year. It will be available via the Samsung Health Monitor app.

The feature allows those aged 22 and older who have not been diagnosed with the condition to check for signs of sleep apnea using their smartwatch and phone. It looks for signs of moderate to severe obstructive sleep apnea (OSA) over a two-night monitoring period. Users will need to track their sleep for more than four hours twice over a ten-day period to use the feature.

OSA is a common, chronic condition that affects around 25 percent of men and a tenth of women in the US, according to the National Sleep Foundation. Those with the condition tend to stop breathing while they sleep, which can reduce their sleep quality, disrupt oxygen supply and lead to more daytime tiredness. Left untreated, "sleep apnea can compound the risk of cardiovascular diseases such as hypertension, coronary artery disease, heart failure, cardiac arrhythmia and stroke," Samsung notes. The company added that the feature should help more people detect moderate and severe forms of the condition, and for them to seek medical advice when they do.

Other versions of the feature, which ties into Samsung's other efforts to help its customers have a good night's sleep, have popped up in devices elsewhere. In 2020, Withings added a sleep apnea detection feature to its sleep tracking mat.

This article originally appeared on Engadget at https://www.engadget.com/samsung-gets-fda-approval-for-a-sleep-apnea-feature-on-galaxy-watch-172856948.html?src=rss

AI is coming for big pharma

If there’s one thing we can all agree upon, it’s that the 21st century’s captains of industry are trying to shoehorn AI into every corner of our world. But for all of the ways in which AI will be shoved into our faces and not prove very successful, it might actually have at least one useful purpose. For instance, by dramatically speeding up the often decades-long process of designing, finding and testing new drugs.

Risk mitigation isn’t a sexy notion but it’s worth understanding how common it is for a new drug project to fail. To set the scene, consider that each drug project takes between three and five years to form a hypothesis strong enough to start tests in a laboratory. A 2022 study from Professor Duxin Sun found that 90 percent of clinical drug development fails, with each project costing more than $2 billion. And that number doesn’t even include compounds found to be unworkable at the preclinical stage. Put simply, every successful drug has to prop up at least $18 billion waste generated by its unsuccessful siblings, which all but guarantees that less lucrative cures for rarer conditions aren’t given as much focus as they may need.

Dr. Nicola Richmond is VP of AI at Benevolent, a biotech company using AI in its drug discovery process. She explained the classical system tasks researchers to find, for example, a misbehaving protein – the cause of disease – and then find a molecule that could make it behave. Once they've found one, they need to get that molecule into a form a patient can take, and then test if it’s both safe and effective. The journey to clinical trials on a living human patient takes years, and it’s often only then researchers find out that what worked in theory does not work in practice.

The current process takes “more than a decade and multiple billions of dollars of research investment for every drug approved,” said Dr. Chris Gibson, co-founder of Recursion, another company in the AI drug discovery space. He says AI’s great skill may be to dodge the misses and help avoid researchers spending too long running down blind alleys. A software platform that can churn through hundreds of options at a time can, in Gibson’s words, “fail faster and earlier so you can move on to other targets.”

Image of Human HT29 Cells which are highlighted in Cell Profiler, the Carpenter-Singh software platform used to examine cellular images.
CellProfiler / Carpenter-Singh laboratory at the Broad Institute

Dr. Anne E. Carpenter is the founder of the Carpenter-Singh laboratory at the Broad Institute of MIT and Harvard. She has spent more than a decade developing techniques in Cell Painting, a way to highlight elements in cells, with dyes, to make them readable by a computer. She is also the co-developer of Cell Profiler, a platform enabling researchers to use AI to scrub through vast troves of images of those dyed cells. Combined, this work makes it easy for a machine to see how cells change when they are impacted by the presence of disease or a treatment. And by looking at every part of the cell holistically – a discipline known as “omics” – there are greater opportunities for making the sort of connections that AI systems excel at.

Using pictures as a way of identifying potential cures seems a little left-field, since how things look don’t always represent how things actually are, right? Carpenter said humans have always made subconscious assumptions about medical status from sight alone. She explained most people may conclude someone may have a chromosomal issue just by looking at their face. And professional clinicians can identify a number of disorders by sight alone purely as a consequence of their experience. She added that if you took a picture of everyone’s face in a given population, a computer would be able to identify patterns and sort them based on common features.

This logic applies to the pictures of cells, where it’s possible for a digital pathologist to compare images from healthy and diseased samples. If a human can do it, then it should be faster and easier to employ a computer to spot these differences in scale so long as it’s accurate. “You allow this data to self-assemble into groups and now [you’re] starting to see patterns,” she explained, “when we treat [cells] with 100,000 different compounds, one by one, we can say ‘here’s two chemicals that look really similar to each other.’” And this looking really similar to each other isn’t just coincidence, but seems to be indicative of how they behave.

In one example, Carpenter cited that two different compounds could produce similar effects in a cell, and by extension could be used to treat the same condition. If so, then it may be that one of the two – which may not have been intended for this purpose – has fewer harmful side effects. Then there’s the potential benefit of being able to identify something that we didn’t know was affected by disease. “It allows us to say, ‘hey, there’s this cluster of six genes, five of which are really well known to be part of this pathway, but the sixth one, we didn’t know what it did, but now we have a strong clue it’s involved in the same biological process.” “Maybe those other five genes, for whatever reason, aren’t great direct targets themselves, maybe the chemicals don’t bind,” she said, “but the sixth one [could be] really great for that.”

A male in his 30s of Indian ethnicity, working in a scientific laboratory searching for a vaccine for COVID-19.
FatCamera via Getty Images

In this context, the startups using AI in their drug discovery processes are hoping that they can find the diamonds hiding in plain sight. Dr. Richmond said that Benevolent’s approach is for the team to pick a disease of interest and then formulate a biological question around it. So, at the start of one project, the team might wonder if there are ways to treat ALS by enhancing, or fixing, the way a cell’s own housekeeping system works. (To be clear, this is a purely hypothetical example supplied by Dr. Richmond.)

That question is then run through Benevolent’s AI models, which pull together data from a wide variety of sources. They then produce a ranked list of potential answers to the question, which can include novel compounds, or existing drugs that could be adapted to suit. The data then goes to a researcher, who can examine what, if any, weight to give to its findings. Dr. Richmond added that the model has to provide evidence from existing literature or sources to support its findings even if its picks are out of left-field. And that, at all times, a human has the final say on what of its results should be pursued and how vigorously.

It’s a similar situation at Recursion, with Dr. Gibson claiming that its model is now capable of predicting “how any drug will interact with any disease without having to physically test it.” The model has now formed around three trillion predictions connecting potential problems to their potential solutions based on the data it has already absorbed and simulated. Gibson said that the process at the company now resembles a web search: Researchers sit down at a terminal, “type in a gene associated with breast cancer and [the system] populates all the other genes and compounds that [it believes are] related.”

“What gets exciting,” said Dr. Gibson, “is when [we] see a gene nobody has ever heard of in the list, which feels like novel biology because the world has no idea it exists.” Once a target has been identified and the findings checked by a human, the data will be passed to Recursion’s in-house scientific laboratory. Here, researchers will run initial experiments to see if what was found in the simulation can be replicated in the real world. Dr. Gibson said that Recursion’s wet lab, which uses large-scale automation, is capable of running more than two million experiments in a working week.

“About six weeks later, with very little human intervention, we’ll get the results,” said Dr. Gibson and, if successful, it’s then the team will “really start investing.” Because, until this point, the short period of validation work has cost the company “very little money and time to get.” The promise is that, rather than a three-year preclinical phase, that whole process can be crunched down to a few database searches, some oversight and then a few weeks of ex vivo testing to confirm if the system’s hunches are worth making a real effort to interrogate. Dr. Gibson said that it believes it has taken a “year’s worth of animal model work and [compressed] it, in many cases, to two months.”

Of course, there is not yet a concrete success story, no wonder cure that any company in this space can point to as a validation of the approach. But Recursion can cite one real-world example of how close its platform came to matching the success of a critical study. In April 2020, Recursion ran the COVID-19 sequence through its system to look at potential treatments. It examined both FDA-approved drugs and candidates in late-stage clinical trials. The system produced a list of nine potential candidates which would need further analysis, eight of which it would later be proved to be correct. It also said that Hydroxychloroquine and Ivermectin, both much-ballyhooed in the earliest days of the pandemic, would flop.

And there are AI-informed drugs that are currently undergoing real-world clinical trials right now. Recursion is pointing to five projects currently finishing their stage one (tests in healthy patients), or entering stage two (trials in people with the rare diseases in question) clinical testing right now. Benevolent has started a stage one trial of BEN-8744, a treatment for ulcerative colitis that may help with other inflammatory bowel disorders. And BEN-8744 is targeting an inhibitor that has no prior associations in the existing research which, if successful, will add weight to the idea that AIs can spot the connections humans have missed. Of course, we can’t make any conclusions until at least early next year when the results of those initial tests will be released.

DNA molecular structure with sequencing data of human genome analysis on black background.
Yuichiro Chino via Getty Images

There are plenty of unanswered questions, including how much we should rely upon AI as the sole arbiter of the drug discovery pipeline. There are also questions around the quality of the training data and the biases in the wider sources more generally. Dr. Richmond highlighted the issues around biases in genetic data sources both in terms of the homogeneity of cell cultures and how those tests are carried out. Similarly, Dr. Carpenter said the results of her most recent project, the publicly available JUMP-Cell Painting project, were based on cells from a single participant. “We picked it with good reason, but it’s still one human and one cell type from that one human.” In an ideal world, she’d have a far broader range of participants and cell types, but the issues right now center on funding and time, or more appropriately, their absence.

But, for now, all we can do is await the results of these early trials and hope that they bear fruit. Like every other potential application of AI, its value will rest largely in its ability to improve the quality of the work – or, more likely, improve the bottom line for the business in question. If AI can make the savings attractive enough, however, then maybe those diseases which are not likely to make back the investment demands under the current system may stand a chance. It could all collapse in a puff of hype, or it may offer real hope to families struggling for help while dealing with a rare disorder.

This article originally appeared on Engadget at https://www.engadget.com/ai-is-coming-for-big-pharma-150045224.html?src=rss

Vibrating belt that treats low bone density gets FDA approval

The FDA has provided clearance for a medical device called Osteoboost, a vibrating belt that improves bone density in patients with osteopenia. The device, which was developed by California-based startup Bone Health Technologies and in part with NASA, is the first medical device of its kind to get regulatory approval as a treatment option for postmenopausal women.

One in two older women who have experienced menopause gets osteoporosis (the disease that comes after prolonged and untreated osteopenia), which is characterized by porous bones that can easily fracture. The Osteoboost belt is designed to prevent bone density from reaching that stage through early intervention. It works by mechanically stimulating the strength of the bones in the hips and spine of a wearer and prevents the further progression of bone density disintegration. The blueprint for the technology comes from NASA research that was investigating ways to prevent bone density from weakening in astronauts that work in mostly zero gravity environments where deterioration becomes a concern.

The belt should be worn for 30 minutes every day or at least five times a week for it to fully take effect. It delivers a gentle vibration that makes it easy to be worn pretty much anywhere or at any time, such as during dog walks or while washing dishes. During clinical trials, CT scans showed that following the integration of the belt into a patient’s care plan, bone density visually improved over time. In a study backed by the NIH, women aged 50 to 60 lost 3.4 percent of their bone density by the end of 12 months without any intervention, while patients who wore the belt lost only 0.5 percent of their bone strength.

Current standards of care for preventing osteoporosis during the osteopenia stage are mostly lifestyle suggestions that can be hard to adhere to, such as a well-balanced and calcium-rich diet, frequent weight-bearing exercises and reducing the risk of falls. “Although lifestyle interventions such as exercise and diet are beneficial to bone, the effect is small. The Osteoboost shows promise in slowing the loss of bone density and strength and may fill the treatment gap,” Laura Bilek, a researcher who has studied the belt’s effectiveness said.

Osteoboost is still not yet available for sale, but you can sign up to get notified when the device is released. A company representative said they will begin shipping later this year and will accept pre-orders in the next few months. While the price is also still not disclosed, the representative told Engadget that the belt will be “affordable and accessible to the millions of patients who need it.” To get the device, you will need a prescription from your doctor — so pricing may vary depending on insurers and co-pays. Bone Health Technology said it is currently in talks with insurers regarding coverage for the medical device. While the price projection could have drastically changed, three years ago the CEO Laura Yecies told NS Medical Devices she believed the device could debut for about $800.

This article originally appeared on Engadget at https://www.engadget.com/vibrating-belt-that-treats-low-bone-density-gets-fda-approval-181552362.html?src=rss

The best cheap fitness trackers for 2024

Achieving your fitness goals doesn’t have to be expensive or complicated. Keeping tabs on your daily movement can make you conscious of your activity level and motivate you to stay on top of your gym sessions, or at least hit your steps. That rings especially true if you spend most of your day sitting at a desk like I do. Having a device handy that can keep you accountable can be a game changer. While many smartwatches on the market are decked out with fitness tools, the average affordable tracker might offer just enough to help kickstart your health journey.

You might be surprised by how much a $100 (or less) wearable can do. They go well beyond just counting steps, providing in-depth reports on how you're sleeping at night or giving you a breakdown of your heart rate variability during a workout. But given their price, there are tradeoffs: don’t expect a plethora of features or third-party app integrations. To help you decide which cheap fitness tracker to get, I tested a few of the latest devices that are available for $100 or less to find out which are worth your money.

What to look for in a cheap fitness tracker

Even the most basic tracker should have at least three features: a program to track workouts or movement of some sort, the option to monitor and collect sleep data and the ability to measure health metrics like heart rate and blood oxygen levels (though, the readings might not be super accurate).

Fitness features

A cheap workout tracker can be great for someone looking to keep tabs on small, achievable goals like 10,000 steps before sundown or 30 minutes of a HIIT workout to get your heart rate peaking. An experienced long-distance runner looking to train for a triathlon might opt for a more expensive device that can measure cadence or ground contact time, and can track more customizable workouts or give deeper insights into performance data.

At the very least, a budget workout tracker should be able to track workouts beyond walking and running — otherwise, it would just be a pedometer. The number of activities a device will recognize varies. Some will get funky with it and consider skateboarding a workout, while others won’t be able to track a jumping jack.

At this price, you can expect a device to measure a mix of cardio, machine workouts and strength training. With each, you might get a numerical or visual breakdown of heart rate activity, overall pace, and calories burned per session. Although some cheap trackers can offer a really good overview of heart rate zone activity during a workout, a more technically advanced device might be able to go a step further and explain what your results mean and coach you on how to keep your heart rate in a specific bracket so that you can burn more fat per workout. I found that the more budget-friendly the device, the more likely it is that a tracker will fall short when it comes to smart counseling or offering predictive insights beyond a given workout. If a budget tracker does happen to offer some semblance of a coaching program, you can expect it to sit behind a paywall.

Tracking and planning your recovery is just as essential to any fitness journey. A sub-$100 device should be able to tell you how long you’ve slept and provide a breakdown of deep, light and REM sleep activity. It's not a guarantee that you will get a sleep “score” or insights on how to get better rest — that data is usually found on more expensive wearables. Also, because these trackers aren’t designed for bedtime specifically — be mindful of comfort. The bands and watch face on a budget fitness tracker may not be ideal for getting some good shut-eye.

Connectivity and practicality

Not all activity trackers, budget-friendly or not, are designed to seamlessly integrate with a smartphone. The trackers tested for this roundup can’t directly make calls or send texts to contacts on a paired smartphone. They can, however, display and dismiss incoming calls and notifications. You can forget about checking your email or paying for a coffee from your wrist using these more affordable devices.

Most cheap fitness trackers also won't include a built-in GPS. Instead, they usually depend on a paired smartphone to gather location data. The drawback of using a fitness tracker without GPS is that it might not provide as precise for tracking distance or pace. You also can't use a budget tracker to get turn-by-turn directions during a walk or while running errands. For the more outdoorsy consumers, having GPS could be a key safety feature.

Design

You also might find that an inexpensive fitness tracker is harder to navigate than a more advanced smartwatch. Whether it be a screen size issue or simply not having a smart enough interface, don't expect every feature to be one that you can engage with directly on your wrist. Oftentimes, you will need to pull out your smartphone to log information or access more in-depth health data.

The quality and build of displays and bands will also vary in this category. Don’t expect the highest resolution displays or the fanciest materials in the bands. But you can expect some level of sweat and water resistance.

Other cheap fitness trackers we tested

Wyze Watch 47c

I didn't have high expectations of the Wyze Watch 47c, but I was shocked at how little this tracker can do. The 47c can only track walks and runs. It has a dedicated widget, a small logo of a man running, and when you tap it, it begins measuring your pace, heart rate, calories burned and mileage. It does not auto-detect or auto-pause workouts and it doesn't differentiate between a run and walk. Most importantly, this device can’t track any other exercises. It’s basically a glorified pedometer.

The 47c was also my least favorite to sleep with, mainly because the square watch face is so large and heavy. Even if I did manage to sleep through the night with it on, it only gave me a basic sleep report.

Garmin vivofit 4

The Garmin vivofit 4 has a tiny display that is not a touchscreen and all navigation happens through one button. The watch face is impossible to read outdoors and the exercise widget is also very finicky. To start tracking a run, you have to hold down the main button and flip through some pages until you get to a moving person icon. Once there, you have to press the bottom right corner of the bar and hold down and if you press for too long or in the wrong spot, it’ll switch to another page, like a stopwatch. It’s incredibly frustrating.

Once you start a run though, it will start tracking your steps, your distance — and that's pretty much it. It does not auto-detect or auto-pause workouts. It doesn't alert you of any mileage or calorie milestones.

This article originally appeared on Engadget at https://www.engadget.com/best-cheap-fitness-trackers-140054780.html?src=rss

MIT experts develop AI models that can detect pancreatic cancer early

Researchers at MIT’s CSAIL division, which focuses on computer engineering and AI development, built two machine learning algorithms that can detect pancreatic cancer at a higher threshold than current diagnostic standards. The two models together formed to create the “PRISM” neural network. It is designed to specifically detect pancreatic ductal adenocarcinoma (PDAC), the most prevalent form of pancreatic cancer.

The current standard PDAC screening criteria catches about 10 percent of cases in patients examined by professionals. In comparison, MIT’s PRISM was able to identify PDAC cases 35 percent of the time.

While using AI in the field of diagnostics is not an entirely new feat, MIT’s PRISM stands out because of how it was developed. The neural network was programmed based on access to diverse sets of real electronic health records from health institutions across the US. It was fed the data of over 5 million patient’s electronic health records, which researchers from the team said “surpassed the scale” of information fed to an AI model in this particular area of research. “The model uses routine clinical and lab data to make its predictions, and the diversity of the US population is a significant advancement over other PDAC models, which are usually confined to specific geographic regions like a few healthcare centers in the US,” Kai Jia, MIT CSAIL PhD senior author of the paper said.

MIT’s PRISM project started over six years ago. The motivation behind developing an algorithm that can detect PDAC early has a lot to do with the fact that most patients get diagnosed in the later stages of the cancer’s development — specifically about eighty percent are diagnosed far too late.

The AI works by analyzing patient demographics, previous diagnoses, current and previous medications in care plans and lab results. Collectively, the model works to predict the probability of cancer by analyzing electronic health record data in tandem with things like a patient’s age and certain risk factors evident in their lifestyle. Still, PRISM is still only able to help diagnose as many patients at the rate the AI can reach the masses. At the moment, the technology is bound to MIT labs and select patients in the US. The logistical challenge of scaling the AI will involve feeding the algorithm more diverse data sets and perhaps even global health profiles to increase accessibility.

Nonetheless, this isn't MIT’s first stab at developing an AI model that can predict cancer risk. It notably developed a way to train models how to predict the risk of breast cancer among women using mammogram records. In that line of research, MIT experts confirmed, the more diverse the data sets, the better the AI gets at diagnosing cancers across diverse races and populations. The continued development of AI models that can predict cancer probability will not only improve outcomes for patients if malignancy is identified earlier, it will also lessen the workload of overworked medical professionals. The market for AI in diagnostics is so ripe for change that it is piquing the interest of big tech commercial companies like IBM, which attempted to create an AI program that can detect breast cancer a year in advance.

This article originally appeared on Engadget at https://www.engadget.com/mit-experts-develop-ai-models-that-can-detect-pancreatic-cancer-early-222505781.html?src=rss

The FDA has reportedly approved an AI product that predicts cognitive decline

The US government has reportedly approved AI-based memory loss prediction software for the first time. Darmiyan, a San Francisco-based brain imaging analytics company, says the FDA has granted De Novo approval for its product BrainSee. The software platform assigns “an objective score that predicts the likelihood of progression from aMCI to Alzheimer’s dementia within 5 years,” according to the medical company. Fierce Biotech first reported the announcement.

Darmiyan says BrainSee can predict memory loss progression using clinical brain MRIs and cognitive tests, which are already standard for patients worried about early signs of decline. After the program analyzes the imaging and cognitive assessments, it assigns a predictive score indicating the patient’s odds of memory deterioration within the following five years. At least in theory, that would lead to early treatment for some and peace of mind for others.

“This shifts the patient experience from prolonged anxiety to proactive management, which is crucial in an era of emerging Alzheimer’s treatments where accurate prognosis can help determine suitable treatment candidates,” Darmiyan wrote in a press release announcing the FDA approval. “The economic impact of BrainSee will be significant for all stakeholders in healthcare, promising to reduce the billions of dollars annually spent on Alzheimer’s care, through more effective management and treatment.”

The FDA’s “De Novo” designation means the product has no clear market predecessors but has proven its effectiveness and safety in clinical trials. BrainSee first received FDA “breakthrough” designation in 2021, an earlier stage of the approval path for a first-of-its-kind treatment. 

Darmiyan says BrainSee is fully automated and provides results on the same day the scans and cognitive test scores are entered. The company views the tech as shifting the treatment of mild / early cognitive decline from biomarker-based methods to “non-invasive and actionable forecasts of future improvement or progression.”

This article originally appeared on Engadget at https://www.engadget.com/the-fda-has-reportedly-approved-an-ai-product-that-predicts-cognitive-decline-184534034.html?src=rss

Amazfit Helio Ring joins the fray with a focus on athletes’ well-being

Now that smartwatches have more or less become more acceptable in society, it seems that the wearable tech market is setting its eyes on less conspicuous and less distracting designs for monitoring one’s health and fitness. And just like smartwatches in their early years, smart rings just aren’t resounding yet with people, though that could only be a matter of time. There hasn’t been much variety yet in this nascent market, which isn’t surprising given the physical limitations of a ring. Wearable tech brand Amazfit, however, believes it has something unique to offer, at least to athletes and very active people who are just as concerned with their mental health and recovery as they are with their steps and heart rate.

Designer: Amazfit

The niche that smartwatches have found themselves in seems to revolve around fitness and health, with features like activity tracking, health monitors, and the like. While those are indeed important metrics, they only represent a part of one’s overall well-being. Mental health is just as important, and giving your body and mind time to rest and recover is critical as well. Those are the points that the Amazfit Helio Ring is trying to emphasize in order to differentiate it from the likes of the Oura Ring, currently the leading name in this very young and small market.

In a nutshell, the Amazfit Helio Ring takes the same data collected by sensors inside the ring but interprets them in a slightly different way. Of course, it still records your steps, tracks your blood oxygen levels, and even monitors your sleep, but it frames that information in light of stress levels, your mental health, and most importantly, how well you’re taking steps to recover from those. Amazfit will propose actionable steps to guide you toward recovery, which unsurprisingly include getting enough sleep and meditation.

As for the device itself, the Amazfit Helios Ring is a bit of an outlier in that it doesn’t try to masquerade as a piece of jewelry. The dotted pattern on its surface is a dead giveaway that it is anything but luxurious, giving it a more rugged appearance that its target audience won’t mind anyway. In fact, it is intentionally designed for this group of people, using “skin-friendly” titanium alloy and ensuring water resistance of up to 10ATM, for those times when you need to take a swim.

The Amazfit Helios Ring can be used on its own, with or without an Amazfit smartwatch. Of course, you will need to pair with the mobile app, but you will also need to subscribe to the Zepp Aura rest and wellness service to really use the data it gives. A purchase of the ring will include a three-month free trial, but there are no pricing details available yet.

The post Amazfit Helio Ring joins the fray with a focus on athletes’ well-being first appeared on Yanko Design.

Ogmen ORo is a smart robot companion and guardian for your beloved dog

Robots are invading our homes, in one way or another. There are the rolling discs that are robot vacuum cleaners, and there are a growing number of cute robots that aim to provide entertainment and sometimes even security for the whole family. Well, at least the human members of the family. Some households have “small” a.k.a. furry family members, and these are often left unserved by these modern innovations. Worse, they’re sometimes even put at risk because of how some smart home robots are not designed with pets in mind. Turning the tables around, Ogmen Robotics is revealing at CES 2024 a kind of intelligent home robot that was designed from the ground up to be the “pawfect” playmate, guardian, and caretaker for your canine best friend.

Designer: Ogmen Robotics

At first glance, the Ogmen ORo looks like one of those robots on wheels designed for human use. After all, it has the semblance of a face, or at least eyes, on a tablet-like screen and a somewhat tall frame that loosely resembles a body. They say that looks can be deceiving, and that’s definitely the case here since all of the ORo’s features were carefully selected for the benefit of dogkind primarily, and humans only by association.

At the top of the list of those features is its ability to provide physical, mental, and emotional stimulation through playful activities. It keeps track of the dog’s health and even detects when they’re feeling anxious, at which point ORo will play soothing music to help calm them down. It can even help owners train their dogs through obedience games and virtual training services right at home.

When paired with Orgmen’s food and medicine dispenser, the ORo robot ensures that the pooch gets a balanced diet while also monitoring their eating habits. For humans, ORo offers the benefits of remote connectivity and interaction, allowing owner and pet to bond even when they’re far apart. The robot can also take photos of the bet’s precious moments, allowing you to easily share and boast on social media.

Technology doesn’t need to benefit humans only. In fact, it should be used to benefit all, including the planet as well as our furry friends. Ogmen’s ORo puts those very same technologies that power human smart appliances and devices at the service of the four-legged members of the family. After all, having happy and healthy family members is a good thing for both humans and animals alike.

The post Ogmen ORo is a smart robot companion and guardian for your beloved dog first appeared on Yanko Design.

Vivoo’s new at-home UTI test kit and app can tell you if you have a urinary tract infection

Following last year's smart toilet which debuted at CES 2023, Vivoo is at it again for CES 2024 with another urine analysis product. The company has unveiled an at-home digital urinary tract infection (UTI) testing kit that provides what it calls "gold standard accuracy results" via a two-minute test. 

To use it, just pee on the provided UTI test strip and scan it to obtain results via Vivoo's app in "seconds," the company says. If the result is positive, customers can then connect with a doctor to obtain a prescription if required. The company says the product "saves customers time, prevents confusion in readings, and digitalizes the data so customers can share results with healthcare providers via the app, if instant treatment is desired." From the looks of it, the results are obtained via the strip, then deciphered by the app.

Vivoo notes that UTIs are the most common type of outpatient infection, with six in ten women experiencing them in their lifetimes. Normally, you'd send your urine off to a lab for analysis, or use an existing at-home test kit. The company says that the new product spares users the bureaucracy of lab testing while also keeping the relevant data for users who might need that, unlike regular testing kits. 

In fact, many women experience recurrent UTIs, which have become resistant to at least one or even multiple types of antibiotics. By keeping a record of past infections, Vivoo's app could help patients and medical professionals track the problem and treat it appropriately. 

Last year, the company unveiled a smart toilet device that clips onto existing toilets and provides data like your body's water, magnesium, PH, protein and sodium levels. Later on, it released strips for vaginal PH levels. The new home UTI test will come to market in Q2 2024, but pricing isn't yet available. 

We're reporting live from CES 2024 in Las Vegas from January 6-12. Keep up with all the latest news from the show here.

This article originally appeared on Engadget at https://www.engadget.com/vivoos-new-at-home-uti-test-kit-and-app-can-tell-you-if-you-have-a-urinary-tract-infection-030021462.html?src=rss

The Withings BeamO is an all-in-one thermometer, ECG and stethoscope

Withings has a knack for turning up at CES with a gizmo that garners plenty of attention in the health-tech space. This year, at CES 2024, it’s showing off something called the BeamO, an all-in-one diagnostic tool that follows in the footsteps of its existing contact-free thermometer. Dubbed a “multiscope,” the $250 device will tell you how warm (or not) you’re feeling, measure your blood oxygenation, run a one-lead ECG and even act as a digital stethoscope. Put this to your chest and you can listen to the sounds your chest is making, or send the file to your physician for further analysis.

In the hand, the candybar-shaped BeamO is almost troublingly light, but while medical tech feels weighty, it doesn't actually need to be. You can cycle through its features with the joystick controller, letting you select between ECG / SpO2, Stethoscope, and the wireless temperature sensor. Despite the standalone display you'll need to use the companion app to guide you to use the stethoscope, since it's hard to offer that guidance while holding it at your chest. And you shouldn't have to worry about battery life, either, since the company says the BeamO will last for months at a time on a single charge. 

As much as Withings markets its products to the worried well, the company says this may have some real impact in the telemedicine space. After all, these sorts of basic tests are the ones you’ll experience most of the times you visit a doctor, but aren’t that easy to do online. (Especially given the dangers of self-reporting, the ability for a professional to hear what’s going on in the chest cavity seems key.) The company adds that, pending the usual long delay with the FDA, BeamO will also be able to detect atrial fibrillation.

Health Mate is also getting a fairly muscular overhaul to help bolster BeamO's feature set. Now, up to eight users will be able to track their medication intake and even log the symptoms that are prompting them to take a reading. This data can then be exported to whoever you wish to share it with, including sharing the live audio from the stethoscope.

Concept of Withings BeamO, a rectangular device held with two hands.
Withings

Once it has won its numerous approvals, it’ll be interesting to see if BeamO — silly name aside — will be seen as valuable by telehealth professionals. Certainly, paired with its class-leading Health Mate app, it’ll offer users an easy way to look at all of this data. We’ll just have to see if this helps doctors feel the same way, or if they’ll roll their eyes and stick to what they know. If nothing else, this is one way to help cut down on the number of health gadgets you'll need in your home. But we'll put this thing through its paces when the device begins shipping in June.

We're reporting live from CES 2024 in Las Vegas from January 6-12. Keep up with all the latest news from the show here.

This article originally appeared on Engadget at https://www.engadget.com/the-withings-beamo-is-an-all-in-one-thermometer-ecg-and-stethoscope-010017439.html?src=rss