DxMedical Cloud™
Technology for overwhelmingly high-speed detection from all over the world.
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.
Login
How We Help You To Empower Your Business
POINT 1.
Quickly Deliver Technical Information
We deliver what you seek quickly and in a short time from technical information from all over the world
POINT 2.
Briefly to the Point
A wealth of detailed features makes it easy to understand the main points
POINT 3.
Help with Growth Strategies
The report is also packed with analytical information from the perspective of growth and long-term strategies for business use
Catch Up on the Latest Information
from Around the World
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.
search
Quick search in Japanese
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.
emergency
Recommendations for You
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.
Academic Search
For researchers and professionals, you can search and browse more specialized information, such as articles submitted to journals by universities and research institutes.
More features to enhance your team's productivity
Bookmark
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.
Information sharing
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.
Collaboration
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.
DigitalMedical Open Innovation
BrainEnergy produce DigitalMedical open
innovation from Tokyo, where you can experience the intersection of cool and passionate design and
technology.
Transform Your Business With Cloud
Looking for the Future of Health Care
OUR TECHNOLOGY HELPS YOUR BUSINESS
Our technology will help your business
Technology
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.
Researchers have discovered that “exosomes” released from the brain during stress have an anxiety-reducing effect.
Dr. Yūsuke Mizobata of the Japan Air Self-Defense Force, Aviation Development and Experimentation Group, Aviation Medical Safety Research Unit, and Professor Yūji Morimoto of the National Defense Medical College, in collaboration with Professor Hiroyuki Toda of the same university, Lecturer Nohito Koga, Associate Professor Hiroyuki Ota, Professor Takahiro Ochitani (Specially Appointed), Lecturer Yusuke Yoshioka from Tokyo Medical University, and Dr. Yasunobu Kobayashi from Nanosomics Japan Co., Ltd. They revealed that “brain-derived exosomes” (tiny sac-like particles released from brain cells) present in the blood of mice subjected to severe stress possess an anxiety-suppressing effect.
Cancer therapies made from recycled nuclear fuel to be backed by government funding
Eight research and development projects, including recycling nuclear fuel to be used as cancer therapies, will be backed by £74m in government and industry funding to make medicines manufacturing greener.
In a statement published on 18 November 2025, the government said it was awarding more than £54m to the projects through the Sustainable Medicines Manufacturing Innovation programme, which is funded through the Voluntary Scheme for Branded Medicine Pricing, Access and Growth (VPAG) investment programme.
The projects will be further funded with £20m from industry, and £9.9m of the funding will be directed towards ‘Project Alpha 10.6’, which focuses on how to recycle fuel used in nuclear power stations into new cancer therapies.
As part of the project, researchers will use a radionuclide called ‘lead-212’ to create treatments called ‘targeted alpha therapies’. Radionuclides are already used in medical scans to diagnoses cancer and other conditions.
Designing brain–computer interfaces is now easier than building with LEGO
Two fundamental challenges stand in the way of widespread BCI adoption. First, the sheer complexity of the brain means that a one-size-fits-all approach rarely works in practice. Systems designed for one disorder—or even for one individual—often fail for another. This highlights the urgent need for tools that support rapid prototyping of highly customized BCIs tailored to each user.
Second, existing BCI development platforms often present steep learning curves, lack flexibility, and require researchers to juggle a patchwork of expensive, proprietary software. This not only drives up costs but also creates significant barriers to entry, slowing down progress across the field.
To address these issues, we developed PyNoetic: a free, open-source Python framework built to democratize BCI research. Our goal was to design a platform that is both powerful and comprehensive, yet also accessible to researchers regardless of their coding expertise.
Device Visualizes Brain State During Rehabilitation Developed by Japanese University
Niigata University of Health and Welfare, in collaboration with the Rehabilitation Technology Department of Kobe City Medical Center Central Citizens Hospital and Astem Corporation, has pioneered the development of the “BROS (Brain Regional Oxygen Sensor)” wireless device.
This device enables the visualization of brain oxygenation levels during rehabilitation.
This breakthrough allows for safer and more effective rehabilitation while monitoring the patient's brain state, without location constraints.
AI for food development: How to create nutrition that is healthy for people and the planet
The AI for Food Product Development Symposium highlighted that food scientists and AI specialists should collaborate to co-create and learn how to work effectively with emerging tools.
AI can bridge gaps between agriculture, nutrition, and health by connecting molecular food composition to farming practices and consumer well-being.
Data quality, investment, and talent shortages remain critical challenges in scaling AI for food innovation, underscoring the need for stronger data infrastructure.
Non-contact liquid detection system for leak detection Detects leaks in real time, enhancing factory safety and contributing to high efficiency
Sumitomo Corporation (Head Office: Chiyoda-ku, Tokyo; President and CEO: Shingo Ueno; hereinafter “Sumitomo Corporation”) and Toshiba Information Systems Corporation (Head Office: Kawasaki City, Kanagawa Prefecture; President: Ken Nemoto, hereinafter “Toshiba Information Systems”) have jointly developed the “Leakage and Chemical Detection SWIR 3D Camera System” (hereinafter “the System”). This system enables non-contact detection of various liquids, including water, chemicals, and oil. This system utilizes the characteristics of short-wave infrared (SWIR) to perform real-time, automatic, non-contact, wide-area liquid detection and liquid type identification—tasks difficult with conventional methods—digitizing factory monitoring operations. A patent application was completed in September 2025, with sales scheduled to begin in August 2026.
Sumitomo Corporation planned the system by combining the technologies of its Taiwan-based investee company and a domestic manufacturing partner. Toshiba Information Systems was responsible for developing the proprietary algorithm “Liquidseeker” integrated into the system. Following the sales launch, the focus will be on introducing the system to domestic semiconductor manufacturing plants. Future plans include expanding into diverse industrial sectors such as pharmaceutical and chemical manufacturers, and leveraging Sumitomo Corporation's global network for overseas deployment.
AR-Based Breathing and Swallowing Training Game
As swallowing ability declines with age, the risk of aspiration increases, making it difficult to swallow food and drink properly. Furthermore, in recent years, due to factors like dietary habits, the muscles around the mouth are not sufficiently exercised, and it is said that mouth breathing among children is on the rise.
PiroPiro Party is a product that combines a whistle (controller) with an IC chip and an AR game, enabling users to perform training that improves oral function and activates the brain while having fun. This time, two new products, jointly developed by students at our university aspiring to become speech-language-hearing therapists who brainstormed ideas together, have been commercialized.
Last year, during the planning stage for the new games, the concept was presented to society through crowdfunding with the goal of “transforming painful and difficult rehabilitation into something enjoyable that can be sustained.” This approach garnered significant support. The games are “PiroPiro Balloon,” where players launch balloons into the sky and blow away obstacles that appear one after another, and “PiroPiro MUSIC,” where players blow at illustrations of musical notes flowing down the screen in time with the music. The smartphone camera detects an AR marker attached to the tip of a weighted blowback device. When the player blows all the way to the end and the AR marker reaches the designated position, the character on the screen comes to life.
The students worked with development staff toward commercialization, focusing on game structure, difficulty settings, song selection, and character creation to ensure enjoyment across generations from children to seniors. Under Professor Fukuoka's guidance, they also had local seniors actually experience the games and verified changes in their breathing and swallowing functions.
Designing brain–computer interfaces is now easier than building with LEGO
Two fundamental challenges stand in the way of widespread BCI adoption. First, the sheer complexity of the brain means that a one-size-fits-all approach rarely works in practice. Systems designed for one disorder—or even for one individual—often fail for another. This highlights the urgent need for tools that support rapid prototyping of highly customized BCIs tailored to each user.
Second, existing BCI development platforms often present steep learning curves, lack flexibility, and require researchers to juggle a patchwork of expensive, proprietary software. This not only drives up costs but also creates significant barriers to entry, slowing down progress across the field.
To address these issues, we developed PyNoetic: a free, open-source Python framework built to democratize BCI research. Our goal was to design a platform that is both powerful and comprehensive, yet also accessible to researchers regardless of their coding expertise.
Portable device could help scientists track Alzheimer's disease as it unfolds in real time
A team of researchers from Concordia University and McGill University has developed a "lab-on-a-chip" device that models how Alzheimer's disease advances in the brain.
Wearable Textiles for Diabetes May Revolutionize Care
Already in use for monitoring patients with various types of cardiovascular disease, one of the most promising applications of smart textiles is their development for noninvasive glucose monitoring.
The ability to provide patients with diabetes the same ease of use and flexibility that has shown to increase cardiac patients’ adherence to monitoring regimes could offer the same type of benefit in diabetes.
Also, for patients with diabetes who have comorbidities, these textiles could allow the collection and integration of a variety of data directly into a patient’s electronic health record (EHR) at the clinician’s level.
Debut Launches Plant Cell Biotech Platform for Fragrance Ingredients Without Cultivation
On July 23, 2025, biotech company Debut announced the launch of its plant cell biotechnology platform that enables the creation of fragrance ingredients without cultivation. The company is launching the platform with its orris ingredient, inspired by the root of the iris flower.
Named one of the Time100 Most Innovative Companies of 2025, Debut specializes in cutting-edge AI and biotechnology to deliver efficient and sustainable ingredients. The L’Oréal-backed startup replicates the molecular olfactive “fingerprint” of fragrance ingredients, allowing for supply chain reliability and ingredient consistency.
Perfumer & Flavorist+ reached out to Debut’s founder and chief executive officer Joshua Britton to learn more about this biotechnology and where the company hopes to grow next.
New Wearable Tech Simulates Realistic Touch
This device goes beyond mere noise to create a variety of sophisticated tactile sensations. Powered by a small rechargeable battery, it connects wirelessly to virtual reality headsets and smartphones via Bluetooth. The authors envision that this device will ultimately enhance virtual experiences, enabling visually impaired individuals to navigate their surroundings and reproduce the different textures of flat screens in online shopping.