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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.
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
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
ASUS Showcases AI Healthcare Solutions at Medical Fair Thailand 2025
ASUS unveiled AI-powered healthcare solutions at Medical Fair Thailand 2025. Highlights include the Thai FDA-certified "ASUS VivoWatch" with blood pressure/ECG and 24/7 health management via HealthAI Genie, the "ASUS Handheld Ultrasound LU800" with AI for body composition analysis and real-time fluid assessment, and "EndoAim," Taiwan's leading AI endoscopy solution, now Thai FDA-approved. Air-purifying monitors were also showcased, contributing to the digital transformation of medical fields.
Siemens Healthineers Experience Center USA opens in Charlotte’s Innovation District, Featuring the Latest in Healthcare Technology
Siemens Healthineers has launched its first United States-based Experience Center at The Pearl, Advocate Health’s innovation district in Charlotte, North Carolina. The district brings together the city’s first four-year medical school, the Charlotte campus of Wake Forest University School of Medicine; IRCAD North America, a center for advanced surgical training; and several of the most innovative healthcare technology companies. Spanning 60,000 square feet, the Siemens Healthineers Experience Center USA features the latest technologies in imaging, diagnostics, cancer care, and advanced therapies. Designed as an immersive, hands-on environment, the facility will enable healthcare professionals, industry leaders, and strategic partners to engage and collaborate on today’s most pressing healthcare needs. As an element of its partnership with IRCAD North America, Siemens Healthineers will provide medical imaging technology and support curriculum development for the surgeons and the teams who train at their new facility.
Withings thinks of its latest smart scale as a ‘longevity station’
Withings is back at CES 2026 with another smart scale: the $599.95 Body Scan 2. This time, it’s got an even tighter focus on cardiovascular and metabolic health. The Body Scan 2 contains eight electrodes on the scale itself, as well as an additional four electrodes within a retractable handle. This is similar to the original Body Scan’s design. Adding the handle makes the Body Scan lineup more accurate than most smart scales because it incorporates upper-body data. Typical smart scales only have foot electrodes, and solely use lower-body data to extrapolate total body composition. The major difference with the Body Scan 2 is it increases the number of biomarkers tracked. In addition to weight, heart rate, and overall body composition, the scale now adds a 90-second “longevity assessment.” The assessment consists of over 60 biomarkers that are broken down into roughly five categories: heart pumping performance and heart electrical activity, hypertension risk, artery health, cellular health and metabolic efficiency, and glycemic regulation.
Nanomaterials-based enzymatic biofuel cells for wearable and implantable bioelectronics
Enzymatic biofuel cells (EBFCs), which generate electricity through electrochemical reactions between metabolites such as glucose or lactate and oxygen, are considered a promising power source for wearable and implantable bioelectronics. However, their widespread application has been limited by the poor stability of enzymes and low electron transfer efficiency at the enzyme-electrode interface. In a mini-review published in Frontiers in Energy, researchers Jingyao Wang, Jiwei Ma, and Hongfei Cheng from Tongji University detail how advanced nanomaterials are overcoming these critical challenges. The article provides a concise overview of EBFC working principles and systematically summarizes the key roles of nanomaterials. The authors highlight that nanostructured materials, including carbon nanotubes, graphene, metal-organic frameworks (MOFs), and metallic nanoparticles, serve essential functions in enzyme immobilization and stabilization, facilitate direct electron transfer, and enhance catalytic reactions. The review also covers recent progress in applying these nanomaterials to develop flexible, wearable EBFCs and explores their emerging applications in self-powered biosensing and molecule release systems. This work underscores the significant potential of nanotechnology to improve the performance and durability of EBFCs. Continued optimization of nanomaterial structure and their interaction with enzymes is expected to further advance this green energy technology for practical applications in powering low-energy bioelectronic devices.
Confirmation of the potential for plant fermentation extracts to eliminate microplastics from the body
Plant fermentation extract was found to bind with microplastics in both artificial gastric fluid and artificial intestinal fluid. Plant fermentation extract showed a higher binding rate with microplastics in artificial gastric fluid than in artificial intestinal fluid. It was inferred that substances contained in the plant fermentation extract bind with microplastics through ionic interactions. Plant fermentation extract is expected to promote the elimination of microplastics from the digestive tract and reduce the risk of their absorption into the body from the intestines.
Sensor-integrated food wrapper can facilitate real-time, non-destructive detection of nutritional components
Food quality and safety are crucial. However, conventional food-monitoring methods, including ribotyping and polymerase chain reaction, tend to be destructive and lengthy. These shortcomings limit their potential for broad applications. In this regard, surface-enhanced Raman scattering (SERS) sensing, with real-time, non-destructive, and high sensitivity capabilities, is a highly promising alternative.
3D-Printing Living Artificial Skin: Could Living Cell “Ink” and Dissolvable Threads Break Through in Regenerative Medicine?
Swedish researchers have developed two types of 3D bioprinting technology to artificially generate thick, vascularized skin. This could be a breakthrough in solving a longstanding challenge in regenerative medicine.
Hydrosome Labs Wins a Foodtech Award for Nanoscale Water Technology
Water does not usually win awards. But Hydrosome Labs managed to turn it into a headline by using nanoscale bubble tech that, according to foodtech coverage, can help precision fermentation run faster and deliver more output.​ The company’s idea is simple to explain and hard to pull off: Change how water behaves without adding chemicals. That is the kind of claim that gets attention from both investors and manufacturers.​
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.
Breakthrough New Product: Environmentally Friendly New Eco-Compatible Antioxidant SA6000 Significantly Contributing to Global Low-Carbon Development
On December 8, 2025, to commemorate the second anniversary of the Seminar on Future Development Trends in Rubber Additives, Sennics showcased its research achievements from the past two years, highlighting significant progress in developing its novel eco-friendly antioxidant SA6000. Featuring an entirely new chemical structure, SA6000 delivers superior environmental and application performance, with patent secured in both China and the United States. The company is positioned to rapidly scale up production using existing production lines to meet anticipated global demand for new, high-end, and eco-friendly antioxidants. Building on its robust R&D capabilities and successful track records in product development, Sennics will not only deliver enhanced sustainable products to rubber tire manufacturers, but also contribute meaningfully to global green, low-carbon development and biodiversity conservation, further solidifying its leadership in the global rubber additives industry.
Berkeley alums develop at-home robotic rehabilitation device
With a little serendipity and lots of grit, alumni Todd Roberts (MEng’20 ME) and Owen Kent (B.A.’17 Film) have shown how an idea can turn into a product that makes a difference. The pair first developed Reflex, their robotic rehabilitation device, in a UC Berkeley course on assistive technologies. Now, six years later, they’re launching it through their company, ATDev, which aims to bring high-quality rehabilitation into the home. The two met when Roberts, an incoming graduate student, responded to Kent’s Craigslist post advertising a room for rent. They became fast friends and, once classes started, realized they were both in Designing for the Human Body, a biomechanics course taught by mechanical engineering professor Grace O’Connell.
People with more muscle mass and less visceral fat have younger brains, study finds
As you age, you gradually lose muscle mass and gain visceral body fat, a type of fat deep inside your body that surrounds your heart, kidneys and other organs. Now, scientists say the ratio of visceral fat to muscle can uncover clues about your brain health. People with higher muscle mass and a lower visceral fat-to-muscle ratio tend to have younger brains, according to research being presented next week at the annual meeting of the Radiological Society of North America.
A flexible lens controlled by light-activated artificial muscles promises to let soft machines see
Inspired by the human eye, our biomedical engineering lab at Georgia Tech has designed an adaptive lens made of soft, light-responsive, tissuelike materials. Adjustable camera systems usually require a set of bulky, moving, solid lenses and a pupil in front of a camera chip to adjust focus and intensity. In contrast, human eyes perform these same functions using soft, flexible tissues in a highly compact form. Our lens, called the photo-responsive hydrogel soft lens, or PHySL, replaces rigid components with soft polymers acting as artificial muscles. The polymers are composed of a hydrogel − a water-based polymer material. This hydrogel muscle changes the shape of a soft lens to alter the lens’s focal length, a mechanism analogous to the ciliary muscles in the human eye. The hydrogel material contracts in response to light, allowing us to control the lens without touching it by projecting light onto its surface. This property also allows us to finely control the shape of the lens by selectively illuminating different parts of the hydrogel. By eliminating rigid optics and structures, our system is flexible and compliant, making it more durable and safer in contact with the body.
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.
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
DigitalMedical Open Innovation
デジタル・メディカル・オープンイノベーション
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
ASUS Showcases AI Healthcare Solutions at Medical Fair Thailand 2025
ASUS unveiled AI-powered healthcare solutions at Medical Fair Thailand 2025. Highlights include the Thai FDA-certified "ASUS VivoWatch" with blood pressure/ECG and 24/7 health management via HealthAI Genie, the "ASUS Handheld Ultrasound LU800" with AI for body composition analysis and real-time fluid assessment, and "EndoAim," Taiwan's leading AI endoscopy solution, now Thai FDA-approved. Air-purifying monitors were also showcased, contributing to the digital transformation of medical fields.
ASUS
Siemens Healthineers Experience Center USA opens in Charlotte’s Innovation District, Featuring the Latest in Healthcare Technology
Siemens Healthineers has launched its first United States-based Experience Center at The Pearl, Advocate Health’s innovation district in Charlotte, North Carolina. The district brings together the city’s first four-year medical school, the Charlotte campus of Wake Forest University School of Medicine; IRCAD North America, a center for advanced surgical training; and several of the most innovative healthcare technology companies. Spanning 60,000 square feet, the Siemens Healthineers Experience Center USA features the latest technologies in imaging, diagnostics, cancer care, and advanced therapies. Designed as an immersive, hands-on environment, the facility will enable healthcare professionals, industry leaders, and strategic partners to engage and collaborate on today’s most pressing healthcare needs. As an element of its partnership with IRCAD North America, Siemens Healthineers will provide medical imaging technology and support curriculum development for the surgeons and the teams who train at their new facility.
Siemens
Withings thinks of its latest smart scale as a ‘longevity station’
Withings is back at CES 2026 with another smart scale: the $599.95 Body Scan 2. This time, it’s got an even tighter focus on cardiovascular and metabolic health. The Body Scan 2 contains eight electrodes on the scale itself, as well as an additional four electrodes within a retractable handle. This is similar to the original Body Scan’s design. Adding the handle makes the Body Scan lineup more accurate than most smart scales because it incorporates upper-body data. Typical smart scales only have foot electrodes, and solely use lower-body data to extrapolate total body composition. The major difference with the Body Scan 2 is it increases the number of biomarkers tracked. In addition to weight, heart rate, and overall body composition, the scale now adds a 90-second “longevity assessment.” The assessment consists of over 60 biomarkers that are broken down into roughly five categories: heart pumping performance and heart electrical activity, hypertension risk, artery health, cellular health and metabolic efficiency, and glycemic regulation.
The Verge
Nanomaterials-based enzymatic biofuel cells for wearable and implantable bioelectronics
Enzymatic biofuel cells (EBFCs), which generate electricity through electrochemical reactions between metabolites such as glucose or lactate and oxygen, are considered a promising power source for wearable and implantable bioelectronics. However, their widespread application has been limited by the poor stability of enzymes and low electron transfer efficiency at the enzyme-electrode interface. In a mini-review published in Frontiers in Energy, researchers Jingyao Wang, Jiwei Ma, and Hongfei Cheng from Tongji University detail how advanced nanomaterials are overcoming these critical challenges. The article provides a concise overview of EBFC working principles and systematically summarizes the key roles of nanomaterials. The authors highlight that nanostructured materials, including carbon nanotubes, graphene, metal-organic frameworks (MOFs), and metallic nanoparticles, serve essential functions in enzyme immobilization and stabilization, facilitate direct electron transfer, and enhance catalytic reactions. The review also covers recent progress in applying these nanomaterials to develop flexible, wearable EBFCs and explores their emerging applications in self-powered biosensing and molecule release systems. This work underscores the significant potential of nanotechnology to improve the performance and durability of EBFCs. Continued optimization of nanomaterial structure and their interaction with enzymes is expected to further advance this green energy technology for practical applications in powering low-energy bioelectronic devices.
EurekAlert!
Confirmation of the potential for plant fermentation extracts to eliminate microplastics from the body
Plant fermentation extract was found to bind with microplastics in both artificial gastric fluid and artificial intestinal fluid. Plant fermentation extract showed a higher binding rate with microplastics in artificial gastric fluid than in artificial intestinal fluid. It was inferred that substances contained in the plant fermentation extract bind with microplastics through ionic interactions. Plant fermentation extract is expected to promote the elimination of microplastics from the digestive tract and reduce the risk of their absorption into the body from the intestines.
PR TIMES
Sensor-integrated food wrapper can facilitate real-time, non-destructive detection of nutritional components
Food quality and safety are crucial. However, conventional food-monitoring methods, including ribotyping and polymerase chain reaction, tend to be destructive and lengthy. These shortcomings limit their potential for broad applications. In this regard, surface-enhanced Raman scattering (SERS) sensing, with real-time, non-destructive, and high sensitivity capabilities, is a highly promising alternative.
Phys.org
3D-Printing Living Artificial Skin: Could Living Cell “Ink” and Dissolvable Threads Break Through in Regenerative Medicine?
Swedish researchers have developed two types of 3D bioprinting technology to artificially generate thick, vascularized skin. This could be a breakthrough in solving a longstanding challenge in regenerative medicine.
Wired
Hydrosome Labs Wins a Foodtech Award for Nanoscale Water Technology
Water does not usually win awards. But Hydrosome Labs managed to turn it into a headline by using nanoscale bubble tech that, according to foodtech coverage, can help precision fermentation run faster and deliver more output.​ The company’s idea is simple to explain and hard to pull off: Change how water behaves without adding chemicals. That is the kind of claim that gets attention from both investors and manufacturers.​
colombia
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.
PR TIMES
Breakthrough New Product: Environmentally Friendly New Eco-Compatible Antioxidant SA6000 Significantly Contributing to Global Low-Carbon Development
On December 8, 2025, to commemorate the second anniversary of the Seminar on Future Development Trends in Rubber Additives, Sennics showcased its research achievements from the past two years, highlighting significant progress in developing its novel eco-friendly antioxidant SA6000. Featuring an entirely new chemical structure, SA6000 delivers superior environmental and application performance, with patent secured in both China and the United States. The company is positioned to rapidly scale up production using existing production lines to meet anticipated global demand for new, high-end, and eco-friendly antioxidants. Building on its robust R&D capabilities and successful track records in product development, Sennics will not only deliver enhanced sustainable products to rubber tire manufacturers, but also contribute meaningfully to global green, low-carbon development and biodiversity conservation, further solidifying its leadership in the global rubber additives industry.
PR Newswire
Berkeley alums develop at-home robotic rehabilitation device
With a little serendipity and lots of grit, alumni Todd Roberts (MEng’20 ME) and Owen Kent (B.A.’17 Film) have shown how an idea can turn into a product that makes a difference. The pair first developed Reflex, their robotic rehabilitation device, in a UC Berkeley course on assistive technologies. Now, six years later, they’re launching it through their company, ATDev, which aims to bring high-quality rehabilitation into the home. The two met when Roberts, an incoming graduate student, responded to Kent’s Craigslist post advertising a room for rent. They became fast friends and, once classes started, realized they were both in Designing for the Human Body, a biomechanics course taught by mechanical engineering professor Grace O’Connell.
UC Berkeley Engineering
People with more muscle mass and less visceral fat have younger brains, study finds
As you age, you gradually lose muscle mass and gain visceral body fat, a type of fat deep inside your body that surrounds your heart, kidneys and other organs. Now, scientists say the ratio of visceral fat to muscle can uncover clues about your brain health. People with higher muscle mass and a lower visceral fat-to-muscle ratio tend to have younger brains, according to research being presented next week at the annual meeting of the Radiological Society of North America.
NBC New
A flexible lens controlled by light-activated artificial muscles promises to let soft machines see
Inspired by the human eye, our biomedical engineering lab at Georgia Tech has designed an adaptive lens made of soft, light-responsive, tissuelike materials. Adjustable camera systems usually require a set of bulky, moving, solid lenses and a pupil in front of a camera chip to adjust focus and intensity. In contrast, human eyes perform these same functions using soft, flexible tissues in a highly compact form. Our lens, called the photo-responsive hydrogel soft lens, or PHySL, replaces rigid components with soft polymers acting as artificial muscles. The polymers are composed of a hydrogel − a water-based polymer material. This hydrogel muscle changes the shape of a soft lens to alter the lens’s focal length, a mechanism analogous to the ciliary muscles in the human eye. The hydrogel material contracts in response to light, allowing us to control the lens without touching it by projecting light onto its surface. This property also allows us to finely control the shape of the lens by selectively illuminating different parts of the hydrogel. By eliminating rigid optics and structures, our system is flexible and compliant, making it more durable and safer in contact with the body.
The Conversation