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In today's world, where the world is networked by advances in information technology and numerous technologies are evolving at an astonishing speed, it is extremely difficult to manually collect and manage the vast amount of information from all over the world.
DxMedical Cloud™ collects and analyzes professional information from around the world and uses proprietary algorithms to quickly and accurately deliver the information you seek and the best information for you.
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You can quickly search for information published in various languages around the world in Japanese. Get the information you need from the vast amount of information available worldwide without having to worry about language barriers.
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In addition to word matching, the search by similar and related keywords delivers news that is often missed due to paraphrasing and shaky spelling.
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By providing titles and summaries of information from around the world in Japanese, it streamlines the process of “finding” the information you want from search results.
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For researchers and professionals, you can search and browse more specialized information, such as articles submitted to journals by universities and research institutes.
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Simple and intuitive operation allows you to quickly consolidate all information into a notebook and organize information efficiently. It can be used as a powerful tool for effective information sharing.
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A wide range of information sharing tools are available, including chat and note sharing functions. We support information sharing with your team in all situations, from casual information sharing to organizing information in teams.
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Provides task management functions specifically designed to make information gathering and sharing more efficient. In addition to regular task management functions, this useful tool supports information gathering and sharing, improving the productivity of the entire team.
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Technology
Advancing Clinical Gait Analysis with Generative AI and Musculoskeletal Simulation
In the evolving landscape of neurological healthcare, gait assessment stands as a cornerstone diagnostic and monitoring tool, offering critical insights into patient conditions ranging from cerebral palsy to Parkinson’s disease. Traditionally, however, such assessments have relied heavily on subjective clinical observations, which are qualitative and susceptible to observer bias. The inherent limitations of these methods have catalyzed a push towards more quantitative, scalable, and objective solutions. Recent advancements in artificial intelligence (AI), coupled with the ubiquity of smartphones equipped with sophisticated cameras, have opened new horizons for gait analysis. Despite these technological strides, a fundamental roadblock persists: the scarcity of comprehensive, diverse clinical datasets necessary to train robust AI models that can generalize across varied populations and sensor environments. This scarcity, often rooted in stringent privacy regulations and the logistical complexities of data collection, has confined most existing gait analysis algorithms to niche applications, limiting their clinical impact.
Could “biting strength” be key to development? Hard candy may boost children's tongue pressure
Morinaga & Co. announced findings from a joint study with Tsurumi University School of Dentistry indicating that continuous consumption of hard chewing candy may enhance children's tongue pressure. This research was presented at the 63rd Annual Meeting of the Japanese Society of Pediatric Dentistry held May 29-30, 2025.
The findings confirmed that continuous chewing of hard chewing candy strengthens tongue muscles, leading to improved oral function. Furthermore, even children whose lip closure force fell below the average value indicated in the “Basic Concept on Oral Function Developmental Disorder” showed potential improvements in tongue pressure and lip closure force through hard chewing candy consumption. Moving forward, the company plans to explore expanding the target age range and optimizing consumption frequency and duration to contribute to the development and maintenance of healthy oral function in children.
The company's hard chewing candy is currently marketed to B2B clients, with future plans to introduce it to operators of children's facilities. This expands the product's potential as a way for children to develop oral function while enjoying themselves.
The Morinaga & Co. Group has set the goal of transforming into a “Wellness Company” by 2030 within its management plan. Alongside its traditional pursuit of “deliciousness,” the company is intensifying research into health functions through food. It plans to advance initiatives not only in oral function but also in areas like allergies.
Sensient Flavors & Extracts presents natural flavouring compounds made by biotransformation
Sensient Flavours & Extracts has announced the release of BioSymphony, a line of natural flavours made using only the best ingredients found in nature.
According to Sensient Flavours & Extracts, BioSymphony provides genuine, powerful flavour solutions to satisfy the changing demands of beverage and food producers.
“We like to call it ‘complexification’,” says Steve Morris, president of Sensient Flavors & Extracts. “BioSymphony takes simple ingredients to the next level and enables you to do more with less.”
Versatile across a wide range of food and beverage applications, BioSymphony is globally recognised as a natural flavour – eliminating the need for special regional labelling and simplifying formulations for global brands. As the name suggests, is the fusion of art and science, enabling developers to compose a flavourful masterpiece. This true-to-nature process creates vibrant, authentic taste experiences that resonate with today’s conscious consumers.
Oligosaccharides in breast milk contribute to the formation of healthy intestinal flora in piglets.
We discovered that sialic acid-modified oligosaccharides (sialyllactose) abundant in pig milk contribute to the preferential intestinal colonization of lactobacilli. It was demonstrated that the utilization of sialic acid derived from sialyllactose by a type of lactobacillus, L. salivarius, shifts metabolism from lactic acid to acetic acid production, thereby inhibiting the proliferation of pathogenic Escherichia coli. In piglets raised on powdered milk (milk substitute), the colonization rate of L. salivarius was low, intestinal microbiota diversity was reduced, and diarrhea-like stools were observed. The addition of sialo-oligosaccharides to milk substitutes is expected to be implemented in pig farming as a new rearing technology through the improvement of intestinal microbiota in piglets.
Artificial protein sensor: A new method for measuring cortisol using a smartphone
Cortisol is a hormone that regulates important bodily functions such as blood pressure and metabolism, and abnormalities in cortisol levels can have adverse effects on health. Until now, measurement at medical institutions has been the norm, but the development of new artificial biosensors has made high-precision measurement possible at home or in clinics.The sensor developed by Professor Andrew Ye of the University of California, Santa Cruz, uses a smartphone camera to measure light intensity and directly read cortisol levels. This technology employs artificially designed proteins based on computational modeling, offering higher sensitivity and a broader detection range compared to traditional naturally derived proteins. This detection method is also expected to have applications in drug development and diagnostics.
Gourmey reduces the cost of cultivated meat to €7/kg
Gourmey reduces the cost of cultivated meat to €7/kg French startup Gourmey has garnered attention as the first company to apply for regulatory approval in the EU. According to an analysis by Arthur D. Little, the company suggests that it is possible to produce cultivated meat at a commercial scale using a 5,000-liter bioreactor at a cost of €7/kg.This price represents the lowest cost confirmed through a third-party technical-economic model. Gourmey claims it can produce at a scale of 1,700 tons using six bioreactors with capital expenditures of less than €35 million.To reduce costs, the company has adopted a continuous process and uses undifferentiated cells and suspension-type cell structures. Additionally, by using food-grade processes and media, production costs are kept low. CEO Nicholas Morin-Forest noted that using early-stage embryonic cells and media free of growth factors and proteins enhances cost efficiency. The regulatory approval process is not directly impacted, and the goal is to promote discussions on the practicality of the technology.
3D Systems advances bioprinting tech for ‘first-of-its-kind’ nerve repair
3D Systems announced that its 3D bioprinting technologies have enabled FDA approval for the regenerative repair of peripheral nerve damage. For the last several years, 3D Systems has partnered with TISSIUM, a French MedTech company that is a pioneer in the development of biomorphic programmable polymers for tissue reconstruction, to develop a bespoke 3D printing solution for the repair of damaged peripheral nerves.
Combining TISSIUM’s expertise and proprietary biomorphic programable polymers with 3D Systems’ ground-breaking regenerative medicine bioprinting technologies has resulted in the successful development of a fully bioabsorbable 3D-printed medical device for nerve repair utilising a unique photopolymer.
This device, called COAPTIUM CONNECT with TISSIUM Light, is a first-of-its-kind, atraumatic, sutureless solution for the repair of peripheral nerves. Earlier this week, TISSIUM announced that the U.S. Food and Drug Administration (FDA) has granted De Novo marketing authorisation for this solution. This milestone validates the polymer’s clinical potential and paves the way for its use across a broad spectrum of transformative applications. Its unique polymer characteristics enable the production of high-resolution, elastomeric biodegradable implants that are unique in the industry.
World’s most accurate artificial tongue mimics human taste using graphene and AI
Scientists have built a graphene-based device that can taste with near-human accuracy in a breakthrough that pushes artificial sensing closer to human ability.
The system uses machine learning to interpret chemical signals and classify flavors, even those it hasn’t seen before.
What sets this invention apart is its ability to work in moist conditions, a first for artificial gustatory systems.
AI Nose technology advances in elder care scent detection
Ainos, Inc. (NASDAQ:AIMD)(NASDAQ:AIMDW), a micro-cap company valued at $11.6 million specializing in artificial intelligence (AI) and scent digitization, has reported significant progress in its AI Nose platform’s ability to detect excretion odors, a critical aspect of elder care. The stock has shown remarkable momentum, surging nearly 56% in the past week and 60% over the last six months, according to InvestingPro data. The platform now boasts an accuracy rate of approximately 85%, an improvement over the previous 80% rate, based on data from 254 participant instances in Japan and Taiwan, resulting in 2119 valid statistical entries.
Research findings report that extract from yuzu peel promotes an increase in intracellular Ca2+ concentration.
POLA Innovation Center, a division of POLA Corporation (Headquarters: Shinagawa-ku, Tokyo; President and CEO: Takuma Kobayashi), will present research findings on extracts derived from yuzu peel in collaboration with Professor Tsuyoshi Matsui of the Department of Applied Biology, Faculty of Applied Science and Technology, Tokyo University of Technology, at the 50th Annual Meeting of the Japanese Society of Cosmetic Science, which will be held on July 4–5, 2025, at Yurakucho Asahi Hall.
Singaporean Bean-Free Coffee Startup Nabs Major Ice Cream Collab
Melvados, a gourmet retailer in Singapore, has launched a co-branded Coconut Latte ice cream without dairy or coffee, using local startup Prefer’s beanless alternative instead.
3D printing in vivo using sound
Imagine if doctors could precisely print miniature capsules capable of delivering cells needed for tissue repair exactly where they are needed inside a beating heart. A team of scientists led by Caltech has taken a significant step toward that ultimate goal, having developed a method for 3D printing polymers at specific locations deep within living animals. The technique relies on sound for localization and has already been used to print polymer capsules for selective drug delivery as well as glue-like polymers to seal internal wounds
A skin-interfaced wireless wearable device and data analytics approach for sleep-stage and disorder detection
This work introduces an approach to continuous sleep monitoring using low-power multimodal mechanoacoustic (LMA) sensors. Unlike traditional sleep diagnostics and existing wearable technologies, LMA directly measures respiratory biomarkers. The systematic signal processing pipeline extracts features of activities, respiratory and heart rate variability, essential for detecting sleep stages and disorders. Paired with an interpretable machine learning (ML) model, LMA-SleepNet, this approach delivers accurate, generalized, and personalized sleep analysis. Its superior performance in distinguishing sleep stages and apnea events highlights the translational potential of this technology for continuous sleep monitoring in both clinical and home settings, offering broad applicability across diverse populations.