DxMedical Cloud™
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We use our unique algorithm to deliver the latest technology and product information from around the world in real time.
Explore the future of healthcare with carefully selected information.
Explore the future of healthcare with carefully selected information.
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We deliver what you seek quickly and in a short time from technical information from all over the world
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from Around the World
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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DxMedical Cloud's proprietary algorithms predict the best information based on your interests and preferences and deliver it to you daily. Stay one step ahead of the curve without the hassle of searching, maximizing your daily information gathering.
Fuzzy Search
In addition to word matching, the search by similar and related keywords delivers news that is often missed due to paraphrasing and shaky spelling.
Japanese Localization
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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Instantly save and manage information that you like or want to look at later because you don't have time, with the bookmark function. You can access the information you need without hassle, saving you a great deal of time and effort.
Note Editor
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
New bioelectronics device based on hydrogel- elastomer conductive nanomembranes
基礎科学研究所(IBS)傘下の神経科学イメージング研究センター(CNIR)の研究チームは、成均館大学校(SKKU)と共同で、生体組織とシームレスに接合可能な新種の超薄型柔軟バイオエレクトロニック材料を開発した。研究者らは「THIN(Transformable and Imperceptible Hydrogel-Elastomer Ionic-Electronic Nanomembrane)」と呼ばれる新規デバイスを導入した。THINは厚さわずか350ナノメートルの膜で、乾燥状態では硬いフィルム状だが、水分を吸収すると超柔軟な組織様インターフェースへと変形する。
生物組織、特に心臓・脳・筋肉などの重要臓器は柔らかく曲面を持ち、常に動いている。既存の最も薄い生体電子デバイスでさえ異物感を与え、接着不良・炎症・不安定な信号取得を引き起こす。超薄型フレキシブルデバイスは開発されているものの、心臓や脳のような動的組織では、依然として接着剤・硬質パッケージ・機械的サポートが必要となるケースがほとんどである。
Ultrahuman brings snoring detection and respiratory health tracking to the Ring Air
The Ultrahuman Ring Air now has the capacity to track snoring and general respiratory health. This is thanks to proprietary technology called Respiratory Health PowerPlug, which is basically a suite of audio analysis tools along with some "advanced biomarker tracking" and AI tomfoolery.
All of this results in "one of the most comprehensive consumer tools ever built for understanding nighttime respiratory stability." It details snoring sessions, of course, but also delivers a holistic and "actionable sleep picture." The company says this "reveals patterns, trends and changes in respiratory health over time."
QueeenB Inc., a Tohoku University-spinoff startup, and Tohoku University launch joint research on lab automation using 3D printers and robotic arms to automate experiments.
Researchers are said to spend the majority of their research time on repetitive, simple tasks, which has become a major challenge slowing down innovation. To overcome this challenge, pharmaceutical companies, among others, have recently been advancing “lab automation”—the automation of experiments utilizing robotics technology. However, current solutions face issues with their price and flexibility.
QueeenB Inc. (Headquarters: Sendai City, Miyagi Prefecture / CEO: Kazuki Nemoto), a student-founded startup from Tohoku University, and the Tohoku University Interdisciplinary Science Frontier Institute (Location: Sendai City, Miyagi Prefecture / Director: Toshiyuki Hayase) have now commenced joint research in the field of lab automation. This collaboration aims to realize affordable and flexible lab automation utilizing 3D printers and robotic arms. They will tackle unproven challenges such as optimizing robotic arm control and selecting 3D model structures, strengths, and materials. The development will also involve LaboRobo (Representative: Masaya Inagawa), a volunteer student group from Tohoku University. Leveraging insights unique to students at the forefront of experimentation, they will design future R&D and aim to introduce lab automation in numerous academic institutions, research organizations, and corporate laboratories.
Consumption of processed kelp promotes the production of bile acids associated with health and longevity.
Fujicco Co., Ltd. (Headquarters: Chuo-ku, Kobe City / President and CEO: Shoichi Fukui) conducted a clinical trial involving healthy individuals (aged 20-63), including younger participants. The study revealed that consuming processed kombu increases bile acids produced by gut bacteria, which are associated with healthy longevity. These research findings were presented at the 30th Annual Meeting of the Japanese Society for Dietary Fiber (Dates: Saturday, October 18 to Sunday, October 19, 2025). Consumption of low-molecular-weight dietary fiber, found in processed kelp products like tsukudani (simmered kelp) and salted kelp, may contribute to maintaining a healthy intestinal environment.
Developing Actuators for Robotics Applications Contributing to the Advancement of Expanding Fields Such as Humanoid Robots
NSK Ltd. (Headquarters: Shinagawa-ku, Tokyo; Representative: Akitoshi Ichii, President and CEO; hereinafter “NSK”) has developed rotary actuators and linear actuators as key components for advancing the expected growth of humanoid robots and other applications. Both types feature compact size, light weight, and high back-drivability*1, contributing to the realization of flexible robot movements. NSK will showcase these new products at the 2025 International Robot Exhibition to gauge customer interest, planning to launch them commercially in 2028. Furthermore, NSK will expand its global operations in the robotics field, aiming to grow this sector into a core pillar of its business by 2036.
Development Project for an Automated Strawberry Pollination and Harvesting Robot Utilizing AI Perception Technology
ABC Corporation (Headquarters: Aichi Prefecture, hereinafter “ABC”) has launched a research and development project for an automated strawberry pollination and harvesting robot utilizing VLM (Vision Language Model) technology, which enables AI to make decisions based on video footage to control devices.
This project adopts a cost-effective hardware configuration that runs the AI component locally on an LLM using Tenstorrent's AI accelerator “Blackhole™ p100a,” aiming to establish mass production capabilities for AI agricultural robots by 2028.
Ainos secures seven new patents for AI-powered scent technology
Ainos, Inc. (NASDAQ:AIMD)(NASDAQ:AIMDW), whose stock has surged over 40% in the past six months according to InvestingPro data, has secured seven new patents in Europe, Germany, Taiwan, and China for its AI Nose digital olfaction platform, the company announced Tuesday.
The new patents bring Ainos’s total to 123 active patents across the U.S., Europe, Germany, Japan, Taiwan, and China, covering product design, internal structures, system configurations, and operating principles of its scent digitization technology. With a market capitalization of $16.6 million, the company trades at 1.45 times book value.
The AI Nose platform is designed to convert scent into digital data using MEMS sensor arrays and AI algorithms, with applications across multiple industries. The technology aims to provide real-time scent detection for healthcare settings, anomaly detection in semiconductor manufacturing, and sensory capabilities for robotics and automated production lines.
Developing Marine Digital Twin Technology to Efficiently Quantify Blue Carbon in Seaweed Beds
As part of our research and development of marine digital twins—which recreate ocean conditions in digital space and predict changes—we have developed technology that enables rapid, high-precision quantification of blue carbon (Note 1) from seaweed and seagrass, as well as support for the restoration and conservation of areas where seaweed and seagrass thrive (hereinafter referred to as “seaweed beds”). This technology is expected to contribute to decarbonization and marine environmental conservation.
Specifically, we have developed three core technologies: - Underwater drone autonomous navigation control technology that enables stable underwater data measurement with positional accuracy within ±50 cm even in ocean currents. - Seagrass bed quantification technology that identifies the species and cover (Note 2) of seagrass and seaweed colonies in the ocean with high accuracy exceeding 85%. - Seagrass bed creation simulation technology that supports the pre-verification of restoration and conservation measures for seagrass beds. Utilizing these technologies, we have built an end-to-end system (Note 3) (hereinafter referred to as this system) that supports Blue Carbon Credit certification by enabling measurement and quantification at 100 times the speed (approximately 30 minutes per hectare).
A New Hypothesis on the Mechanism of Aging Focusing on Mitochondria and Carbon Dioxide
Medion Research Laboratories, Inc. is pleased to announce that the latest paper by Dr. Masato Hioki, MD, our product development and supervising expert, has been formally published in the international medical journal Medical Hypotheses (Elsevier).
This paper focuses on the close relationship between “declining mitochondrial function,” a fundamental aspect of aging, and “carbon dioxide (CO₂) metabolism.” It proposes a novel aging theory, the “Aging Spiral Hypothesis,” suggesting that aging progresses as the body's overall metabolic balance is gradually disrupted.
This hypothesis reinterprets carbon dioxide (CO₂) not merely as a metabolic byproduct, but as a crucial factor regulating oxygen supply to cells—essentially a “metabolic switch.” It suggests connections to recent research on senescent cells, studies in skincare and dermatological treatments utilizing carbon dioxide (CO₂), and research on various age-related diseases. This work holds promise for future academic advancement and therapeutic applications.
KAIST Develops Wearable Patch That Can Test Using Sweat Without Blood Draw
The Korea Advanced Institute of Science and Technology (KAIST) announced on September 8 that its researchers have developed a wearable sensor capable of analyzing multiple metabolites in sweat in real time. This research achievement was published in the online edition of the academic journal Nature Communications.
TDK and ASICS Launch Joint Research Project on Motion Analysis Technology for Athlete Support
TDK Corporation (President: Noboru Saito) has launched a joint project with ASICS Corporation (hereinafter ASICS) to analyze athletes' movements using motion sensing technology. By combining TDK's sensor technology with ASICS' deep expertise in athlete engineering, the project aims to visualize athletes' movements and contribute to improving athletic performance.
Highly sensitive monitor can detect vitamin B6, glucose in sweat
Vitamin B6, which is absorbed from a broad range of foods, helps bolster immune system function and neurotransmitters in the brain. But some patients with chronic conditions like diabetes might experience low concentrations of vitamin B6, leading to reduced mental and physical health function, with possible symptoms including irritability, depression, anemia, numbness or muscle twitching. Expensive blood draws are currently the only way to monitor B6 levels, but a team led by Huanyu “Larry” Cheng, the James L. Henderson, Jr. Memorial Associate Professor of Engineering Science and Mechanics at Penn State, has developed a new, non-invasive approach that could allow for continuous monitoring, even at home.
The researchers created an on-skin sensing platform to detect vitamin B6 in small concentrations of sweat, instead of relying on laboratory tests. The sensor can also detect glucose at a high sensitivity, allowing patients with diabetes to non-invasively monitor glucose and vitamin B6 simultaneously, Cheng said. The team published their approach in Composites Part B: Engineering.
A New Approach to Bone Care Supporting Women's Health and Life Healthcare Venture Established in Japan
Asahi Kasei Pharma Corporation (Headquarters: Chiyoda-ku, Tokyo; President: Yoshikazu Aoki; hereinafter “the Company”) announces the establishment of Hers HeAlth Technologies Inc. (hereinafter “Hers HeAlth”) as its first healthcare venture.
Hers HeAlth will operate a spin-off new business venture, building on the pilot of the web service “Medical Bone Check”*1, announced by the Company in 2024. This service matches individuals seeking bone density testing with medical institutions offering the service. By connecting individuals concerned about bone health with medical institutions, the business aims to broadly contribute to solving societal challenges. These include preventing fractures caused by osteoporosis, improving women's quality of life (QOL), extending healthy life expectancy, and curbing healthcare costs.