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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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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
FDA-approved OTC continuous glucose monitoring system Provides real-time insights into how meals, exercise, stress, and sleep affect your body
Signos has announced an FDA-approved over-the-counter (OTC) continuous glucose monitoring (CGM) system. This system integrates the Dexcom Stelo glucose biosensor with an AI platform to provide real-time insights into how meals, exercise, stress, and sleep impact the body. This device goes beyond diabetes management to support long-term health and weight management.Data shows that in the United States, 73.6% of adults are obese or overweight, and 88% are metabolically unhealthy. Against this backdrop, Signos aims to help users understand metabolic health and encourage lifestyle improvements. It also seeks to provide personalized advice to users and reduce the risk of metabolic syndrome.
This Incredible Brain Implant Can Decode Inner Thoughts Into Speech
Scientists are making significant strides forward in brain-computer interface (BCI) technology, and a newly developed system can translate our thoughts into text or sound.
It's essentially an inner speech decoder, developed by researchers from institutions across the US. In tests on four volunteers with severe paralysis, the decoder hit an accuracy rate of up to 74 percent in translating thoughts into audible speech.
The potential here is for a BCI that can help those with speech or motor impairments to communicate more effectively than ever before, though there's still work to be done improving how accurate and personalized the system is.
Previous BCIs have relied on brain activity that is created when a paralyzed person tries to speak or write, even though their bodies cannot carry out the action. This new technology gets a step closer to the source.
Asahi Kasei Microdevices Launches Camera‑less Integrated Sensing Modules for Detection of Falls, Vital Signs, Posture, and Position
Asahi Kasei Microdevices Corporation (AKM) has announced the commercial availability of its AK581xAIM Antenna-in-Module (AiM) millimeter wave (mmWave) radar modules for the high-precision sensing of human presence, breathing, position, and posture, as well as fall-detection, all without the use of cameras. These complete sensing solutions will enable product developers to accelerate proof‑of‑concept (PoC) development and integrate advanced sensing features quickly, without the need for antenna or radar design expertise.
Gourmet fragrances with appetite-suppressing effects that influence health are expected to drive fragrance innovation.
Traditionally, perfume marketing has focused on sensuality, aspirational values, and striking visuals. However, advancements in neuroscience and technology have brought attention to the potential health benefits of scent, shifting the narrative. For example, a study published in Oxford Academic found that using scent before bedtime improved both objective and subjective sleep quality.Another study found that inhaling the scent of grapefruit essential oil was positively correlated with sympathetic nervous system activity, such as blood pressure and heart rate.
Researchers develop innovative model to study sense of smell
Scientists at Tufts have created a powerful 3D model of nasal tissue that reveals surprising new insights into how our sense of smell regenerates and why it sometimes fades. Contrary to past assumptions, a supposedly inactive type of stem cell called HBCs may be key to repairing damaged smell neurons. These cells appear to support the birth of new sensory neurons, and their decline with age could help explain why older adults often lose their sense of smell. The model is easy and affordable to replicate, opening the door for global research into smell loss tied to COVID-19, aging, or diseases like Parkinson s.
Austrian medical device company PIUR IMAGING raises €5.6 million to scale tomographic 3D ultrasound globally
Vienna-based PIUR IMAGING, a medical device company innovating AI-powered tomographic 3D ultrasound, today announced the successful closing of a €5.6 million growth capital funding round.
The round was led by Aescuvest Capital Partners, a leading healthcare investment in Germany.
“Ultrasound is one of the most valuable imaging modalities – flexible, safe, and affordable. But its greatest limitation remains user-dependency, as most conclusions are drawn from 2D slices that vary by operator,” said Frederik Bender, Managing Director & CEO of PIUR IMAGING. “By adding a third dimension, we eliminate much of that variability – shifting from subjective snapshots to comprehensive, organ-level imaging that enables AI to perform more consistent and reliable analysis.
Unique technology supporting fast-acting antipyretic and analgesic drugs: An analysis of the Quick Action manufacturing method
SS Pharmaceutical Co., Ltd. has established its proprietary “Quick Action Manufacturing Method” as the core technology supporting the development of its “fast-acting antipyretic and analgesic drugs.” This method has enabled the company to successfully combine ibuprofen and magnesium oxide—a combination previously considered difficult to achieve—for the first time in Japan. Ibuprofen is poorly soluble in water and tends to dissolve and absorb slowly in the stomach.Therefore, enhancing dissolution is essential to achieve rapid onset of action. However, combining ibuprofen with magnesium oxide poses the challenge of causing chemical reactions with the active ingredients, which can compromise the stability of the formulation. To address this issue, the company developed the “Swellable Dynamic System (SDS Granules)” technology using low-substituted hydroxypropyl cellulose, a swellable polymer.By separating the components within a three-dimensional mesh structure, contact is avoided, enabling stable simultaneous formulation. When the tablet disintegrates in the body, water penetrates the SDS granules, causing them to swell. Magnesium oxide locally raises the pH, promoting rapid dissolution of ibuprofen. This process leads to rapid absorption and immediate efficacy.This technology is currently being applied to multiple over-the-counter medications, including antipyretic analgesics and cold remedies. To address consumer needs for “rapid pain relief,” SS Pharmaceutical has been working to achieve both rapid onset of action and formulation stability.The Quick Action formulation is recognized as a leading technology supporting fast-acting products in the OTC market. A company research and development representative stated, “We will continue to provide this technology based on consumer needs. Furthermore, we aim to develop products that address needs consumers have not yet recognized.”
Project uses AI to develop system for monitoring musculoskeletal disease progression
Musculoskeletal disorders such as osteoarthritis, arthritis, and sports injuries affect more than 1.7 billion people worldwide, according to the World Health Organization (WHO). To address this challenge, Blautic Designs, AIMPLAS (Plastics Technology Centre), the European Musculoskeletal Institute (IMSKE), Crespo Printing Group, and the Universitat Politècnica de València (UPV) have launched the KINESSENSOR project.
The goal is to develop an innovative AI-powered solution focused on creating a portable system that, through the integration and combined use of printed and conventional sensors, enables the identification, monitoring, and tracking of joint, ligament, or muscle injuries or pain.
The project specifically targets a condition known as arthrogenic muscle inhibition (AMI), which causes hypertonia in the hamstring muscles and frequently occurs in anterior cruciate ligament injuries and knee prosthetic surgery. The presence of AMI leads to muscle contractures, increased pain, and rehabilitation difficulties.
Tokyo University of Agriculture and Technology and Suntory begin demonstration project for sweet potato cultivation using regenerative agriculture techniques
The National University Corporation Tokyo University of Agriculture and Technology (hereinafter referred to as “Tokyo University of Agriculture and Technology”) and Suntory Holdings Limited (hereinafter referred to as “Suntory”) will collaborate with producers in Kagoshima Prefecture to increase and stabilize sweet potato yields by implementing regenerative agriculture techniques starting in May.
A new chiral photonic device combines light manipulation with memory.
A research team at the University of Utah has developed a new optical device that can be applied to optical computing systems.This device can control circularly polarized light in real time using electrical pulses and enables the “twist” (chirality) of light to be stored as memory. The device features a structure combining carbon nanotubes and phase-change materials, realizing a scalable platform that integrates light manipulation and memory. The research was published in Nature Communications and opens up new possibilities for recording information at the speed of light.
Chromatic forecasting hydrogels for anti-icing applications
Ice accretion prediction provides advance notification, enabling proactive ice prevention measures to prevent damage to facilities. With current technology, it is difficult to accurately predict ice accretion on solid surfaces. We are developing an innovative ice accretion prediction hydrogel device that encapsulates proteins that serve as ice nuclei.
Next-generation exercise analysis technology: Visualization of muscle activity
Professor Yoshihiro Shimomura from Chiba University explores next-generation exercise analysis technology, using electromyography (EMG) and mechanomyography (MMG). His vMMG system visualizes muscle activity with a low-frequency microphone and LED indicators, enabling real-time observation and data recording for further analysis of muscle function
Innovations driving efficient adherent cell cultivation in biotech
Scaling adherent cell culture from early-stage research to commercial manufacturing remains a significant challenge for biotechs, with complexities in process changes, validation, and automation. Joel Eichmann, co-founder and managing director of Green Elephant Biotech, explains how the company’s innovative CellScrew technology enables a seamless scale-up, reducing risk and cost while maintaining consistent cell culture conditions.
In this Q&A, he discusses key hurdles in scaling adherent cell processes and how Green Elephant’s approach supports biotechs at every development stage.