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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.
Start a free trial chevron_right
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.
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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
This Ultra-Sensitive Sensor Runs on Lemons and Gold, Not Enzymes
The researchers developed a highly sensitive and eco-friendly uric acid sensor using carbon quantum dots (CQDs) synthesized from lemon juice and integrated it into a gold-based SPR platform. The sensor detects uric acid at ultra-low concentrations (0.002 μM), outperforming traditional methods in speed, sensitivity, and sustainability. Their findings were published in Scientific Reports.
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.
The herbal medicine "Bofutsuboufuushousan" has the effect of suppressing visceral fat accumulation due to aging
Kobayashi Pharmaceutical Co., Ltd. (Headquarters: Osaka City; President: Yoshikazu Toyoda), in collaboration with Professor Toshio Morikawa of the Kindai University Institute of Pharmaceutical Sciences (Higashiosaka City, Osaka Prefecture; President: Itaru Matsumura), has discovered that the traditional Chinese medicine Bofutsushosan, used to treat obesity and other conditions, suppresses excess visceral fat and ectopic fat in the liver that accumulate with age. The results of this research were published in the international academic journal Journal of Natural Medicines, and won the 2025 Pharmacopoeia Society Paper Award. This award is given to papers that are recognized as having particularly outstanding academic content among those published in the Journal of Natural Medicines in 2024.
Next-Generation Skin: How a Tel Aviv Innovation Accelerates Burn Healing
Laboratory-grown skin grafts are already part of the medical toolkit. However, a project from Tel Aviv University, supported by Zimin Institutes, promises a breakthrough in near-authentic skin transplant: dense, elastic, and multi-layered. In experimental mice, hair even grows at the burn site. T-Invariant explores how this technology was developed and how close it is to clinical application. A white, thin sheet glimmers in the light. It looks and feels similar to the backing of children’s stickers. In this case, though, the sheet itself actually is the sticker, attached to a foil backing. Dana Cohen-Gerassi lifts it with her fingernail, and the white sheet peels away, leaving delicate, web-like threads stretching toward the foil. In the case of a sticker, this would be glue, but here we see the nano-fiber itself — the scaffold for the future artificial skin, composed of multiple layers of ultra-fine threads.
MXene materials pave the way for next-generation smart contact lenses
As wearable health technologies evolve, smart contact lenses (SCLs) are emerging as powerful platforms for non-invasive, real-time ocular diagnostics. Now, researchers from Istanbul Okan University and Istinye University, led by Prof. Ali Zarrabi and Dr. Siavash Iravani, have presented a comprehensive review on MXene-based smart contact lenses, highlighting their transformative potential in vision care and ophthalmic health monitoring. This work outlines how MXenes-2D transition metal carbides-can revolutionize contact lens functionality through biosensing, therapy, and user comfort.
FDA approves first implant to treat rheumatoid arthritis
The first-ever neuroimmune modulation implant has been approved for people with moderate to severe rheumatoid arthritis (RA) who haven't found relief with traditional medications. It's a potentially life-changing technology that can zap pain by delivering one-minute electrical pulses to the vagus nerve – a key neural pathway that regulates inflammation.
FDA clears Mode Sensors’ fluid monitoring wearable
Mode Sensors has gained US Food and Drug Administration (FDA) clearance for Re:Balans, a fluid monitoring wearable, setting the stage for the sensor’s commercialisation in US clinical wards. With FDA clearance in hand, the Norwegian medical device company currently has a Series A funding round in progress as it sets its sights on the commercial roll-out of the hydration monitoring system. Re:Blans is a non-invasive wearable sensor indicated for the monitoring of adult patients with fluid management-related health conditions. This includes those with fluid overload such as end-stage renal disease and patients at risk of dehydration.
Microbiome Labs Expands Portfolio with Launch of Women's Health Line
Microbiome Labs, a leader in microbiome-based solutions, today announced the launch of its new Women's Health line. The collection debuts with two targeted formulations - Vaginal Balance and Pregnancy Support - designed to promote women's health through probiotic and nutrient blends with clinical evidence behind the ingredients.
New Technology Tackles the “Cell Culture Barrier” Hindering Scale-Up in Regenerative Medicine
Kuraray has commenced domestic sales of its PVA (polyvinyl alcohol) microcarrier “SCAPOVA®” to address challenges in cell culture for regenerative medicine. Microcarriers are microscopic particles used as “scaffolds” to efficiently proliferate cells, particularly utilized in bioreactors for large-scale cultivation. The regenerative medicine field faces challenges such as securing large quantities of cells, ensuring safety, and maintaining high cell quality. This product offers one solution. “Scapova®” is notable for its high cell proliferation capacity. In a 7-day proliferation test using mesenchymal stem cells, it demonstrated a higher proliferation rate compared to carriers from other manufacturers. It has also been applied in 100 L-class bioreactors. Regarding safety, based on Kuraray's accumulated PVA material technology, it minimizes the risk of foreign matter contamination while conducting tests for endotoxins, genotoxicity, and systemic acute toxicity in accordance with ISO 10993 standards. Ease of handling is another major feature. It is provided in a ready-to-use state, eliminating the need for prior sterilization or cleaning. Simply adding it to PBS or culture medium causes immediate swelling. Its high transparency facilitates smooth cell observation using phase-contrast microscopy, contributing to reduced workload at the site. Kuraray positions this product as a technological foundation enabling “safe, easy, and large-scale cultivation of high-quality cells,” aiming to support the industrialization of regenerative medicine products. In October 2025, four domestic manufacturers, including Kuraray, announced the launch of a collaborative project aimed at developing essential technologies for cell manufacturing processes and creating culture materials. This signals accelerating momentum toward future market expansion.
Analyzing body alignment during walking to understand posture Confirming that misalignment in body posture may be a contributing factor to fatigue
Kao Corporation (President: Yoshihiro Hasebe) Human Health Care Research Laboratory has identified a potential link between postural misalignment during walking*1 and chronic fatigue. This finding suggests that correcting body alignment could be an effective approach for fatigue countermeasures. These research findings were presented at the 79th Annual Meeting of the Japanese Society of Physical Fitness and Sports Medicine (September 17-19, 2025, Shiga Prefecture).
Next-Generation Skin: How a Tel Aviv Innovation Accelerates Burn Healing
Laboratory-grown skin grafts are already part of the medical toolkit. However, a project from Tel Aviv University, supported by Zimin Institutes, promises a breakthrough in near-authentic skin transplant: dense, elastic, and multi-layered. In experimental mice, hair even grows at the burn site. T-Invariant explores how this technology was developed and how close it is to clinical application. A white, thin sheet glimmers in the light. It looks and feels similar to the backing of children’s stickers. In this case, though, the sheet itself actually is the sticker, attached to a foil backing. Dana Cohen-Gerassi lifts it with her fingernail, and the white sheet peels away, leaving delicate, web-like threads stretching toward the foil. In the case of a sticker, this would be glue, but here we see the nano-fiber itself — the scaffold for the future artificial skin, composed of multiple layers of ultra-fine threads.
Modular Systems Accelerating Automation in Research Environments — Paving the Way for “Autonomous Experiments” Through AI and Robotics
DENSO WAVE has announced its new “COBOTTA LAB Modules” line to promote automation in research and inspection tasks. Complementing the existing packaged “COBOTTA LAB Standard System,” this line offers flexibility to freely reconfigure modules according to users' research themes and site configurations, making automation implementation easier for research departments. The “COBOTTA LAB Modules” adopt a modular structure based on a linear layout. Components and devices connect via a “plug-and-play” method, allowing easy reconfiguration or addition of modules. This design also facilitates adaptation to changing research themes, with the collaborative robot “COBOTTA” autonomously navigating between modules using its travel axes. Building on technologies cultivated through industrial compact robots and peripheral devices, the company has been strengthening its deployment of automation systems for research environments since 2024. It announced versatile standard systems for tasks like “liquid mixing,” “volume measurement,” and “powder weighing” in September 2024, advancing the efficiency of research operations. This modular design represents an evolution of that approach, ultimately aiming to realize a future research environment where “experiments and analyses tailored to specific objectives are performed autonomously through AI and robotics.” By automating data collection and analysis processes, researchers can focus more on creative experimental design and hypothesis verification. Denso Wave plans to continue expanding its compatible modules sequentially, building an automation foundation to address the challenges faced by research sites grappling with chronic personnel shortages and increasing workloads.
AI-Enhanced Smartwatch-Based AHI Estimation and Validation of AI-Scored Polysomnography
Samsung Electronics' AI-based smartwatch (Galaxy Watch 6), developed and granted de novo approval by the FDA, has been demonstrated to measure apnea-hypopnea index (AHI) in real-world settings with accuracy equivalent to Level 1 polysomnography (PSG) in Korean adults. The study compared smartwatch data with PSG data from 53 subjects. The smartwatch-estimated AHI (eAHI) showed strong correlation (ρ=0.88, ICC=0.87) with the AI-processed PSG AHI (aiAHI), demonstrating high sensitivity and specificity, particularly for detecting and classifying moderate to severe obstructive sleep apnea (OSA). Although eAHI was slightly underestimated in mild OSA, its practical portability and continuous monitoring capability suggest potential as an auxiliary tool for early diagnosis and long-term management of OSA in clinical settings.
More
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.
Start a free trial chevron_right
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
This Ultra-Sensitive Sensor Runs on Lemons and Gold, Not Enzymes
The researchers developed a highly sensitive and eco-friendly uric acid sensor using carbon quantum dots (CQDs) synthesized from lemon juice and integrated it into a gold-based SPR platform. The sensor detects uric acid at ultra-low concentrations (0.002 μM), outperforming traditional methods in speed, sensitivity, and sustainability. Their findings were published in Scientific Reports.
AZO Sensors
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.
Science Portal Korea
The herbal medicine "Bofutsuboufuushousan" has the effect of suppressing visceral fat accumulation due to aging
Kobayashi Pharmaceutical Co., Ltd. (Headquarters: Osaka City; President: Yoshikazu Toyoda), in collaboration with Professor Toshio Morikawa of the Kindai University Institute of Pharmaceutical Sciences (Higashiosaka City, Osaka Prefecture; President: Itaru Matsumura), has discovered that the traditional Chinese medicine Bofutsushosan, used to treat obesity and other conditions, suppresses excess visceral fat and ectopic fat in the liver that accumulate with age. The results of this research were published in the international academic journal Journal of Natural Medicines, and won the 2025 Pharmacopoeia Society Paper Award. This award is given to papers that are recognized as having particularly outstanding academic content among those published in the Journal of Natural Medicines in 2024.
小林製薬
Next-Generation Skin: How a Tel Aviv Innovation Accelerates Burn Healing
Laboratory-grown skin grafts are already part of the medical toolkit. However, a project from Tel Aviv University, supported by Zimin Institutes, promises a breakthrough in near-authentic skin transplant: dense, elastic, and multi-layered. In experimental mice, hair even grows at the burn site. T-Invariant explores how this technology was developed and how close it is to clinical application. A white, thin sheet glimmers in the light. It looks and feels similar to the backing of children’s stickers. In this case, though, the sheet itself actually is the sticker, attached to a foil backing. Dana Cohen-Gerassi lifts it with her fingernail, and the white sheet peels away, leaving delicate, web-like threads stretching toward the foil. In the case of a sticker, this would be glue, but here we see the nano-fiber itself — the scaffold for the future artificial skin, composed of multiple layers of ultra-fine threads.
T-Invariant
MXene materials pave the way for next-generation smart contact lenses
As wearable health technologies evolve, smart contact lenses (SCLs) are emerging as powerful platforms for non-invasive, real-time ocular diagnostics. Now, researchers from Istanbul Okan University and Istinye University, led by Prof. Ali Zarrabi and Dr. Siavash Iravani, have presented a comprehensive review on MXene-based smart contact lenses, highlighting their transformative potential in vision care and ophthalmic health monitoring. This work outlines how MXenes-2D transition metal carbides-can revolutionize contact lens functionality through biosensing, therapy, and user comfort.
News-Medical.net
FDA approves first implant to treat rheumatoid arthritis
The first-ever neuroimmune modulation implant has been approved for people with moderate to severe rheumatoid arthritis (RA) who haven't found relief with traditional medications. It's a potentially life-changing technology that can zap pain by delivering one-minute electrical pulses to the vagus nerve – a key neural pathway that regulates inflammation.
NEW ATLAS
FDA clears Mode Sensors’ fluid monitoring wearable
Mode Sensors has gained US Food and Drug Administration (FDA) clearance for Re:Balans, a fluid monitoring wearable, setting the stage for the sensor’s commercialisation in US clinical wards. With FDA clearance in hand, the Norwegian medical device company currently has a Series A funding round in progress as it sets its sights on the commercial roll-out of the hydration monitoring system. Re:Blans is a non-invasive wearable sensor indicated for the monitoring of adult patients with fluid management-related health conditions. This includes those with fluid overload such as end-stage renal disease and patients at risk of dehydration.
Medical Device Network
Microbiome Labs Expands Portfolio with Launch of Women's Health Line
Microbiome Labs, a leader in microbiome-based solutions, today announced the launch of its new Women's Health line. The collection debuts with two targeted formulations - Vaginal Balance and Pregnancy Support - designed to promote women's health through probiotic and nutrient blends with clinical evidence behind the ingredients.
yahoo!finance
New Technology Tackles the “Cell Culture Barrier” Hindering Scale-Up in Regenerative Medicine
Kuraray has commenced domestic sales of its PVA (polyvinyl alcohol) microcarrier “SCAPOVA®” to address challenges in cell culture for regenerative medicine. Microcarriers are microscopic particles used as “scaffolds” to efficiently proliferate cells, particularly utilized in bioreactors for large-scale cultivation. The regenerative medicine field faces challenges such as securing large quantities of cells, ensuring safety, and maintaining high cell quality. This product offers one solution. “Scapova®” is notable for its high cell proliferation capacity. In a 7-day proliferation test using mesenchymal stem cells, it demonstrated a higher proliferation rate compared to carriers from other manufacturers. It has also been applied in 100 L-class bioreactors. Regarding safety, based on Kuraray's accumulated PVA material technology, it minimizes the risk of foreign matter contamination while conducting tests for endotoxins, genotoxicity, and systemic acute toxicity in accordance with ISO 10993 standards. Ease of handling is another major feature. It is provided in a ready-to-use state, eliminating the need for prior sterilization or cleaning. Simply adding it to PBS or culture medium causes immediate swelling. Its high transparency facilitates smooth cell observation using phase-contrast microscopy, contributing to reduced workload at the site. Kuraray positions this product as a technological foundation enabling “safe, easy, and large-scale cultivation of high-quality cells,” aiming to support the industrialization of regenerative medicine products. In October 2025, four domestic manufacturers, including Kuraray, announced the launch of a collaborative project aimed at developing essential technologies for cell manufacturing processes and creating culture materials. This signals accelerating momentum toward future market expansion.
DxMedical Cloud™︎
Analyzing body alignment during walking to understand posture Confirming that misalignment in body posture may be a contributing factor to fatigue
Kao Corporation (President: Yoshihiro Hasebe) Human Health Care Research Laboratory has identified a potential link between postural misalignment during walking*1 and chronic fatigue. This finding suggests that correcting body alignment could be an effective approach for fatigue countermeasures. These research findings were presented at the 79th Annual Meeting of the Japanese Society of Physical Fitness and Sports Medicine (September 17-19, 2025, Shiga Prefecture).
花王株式会社
Next-Generation Skin: How a Tel Aviv Innovation Accelerates Burn Healing
Laboratory-grown skin grafts are already part of the medical toolkit. However, a project from Tel Aviv University, supported by Zimin Institutes, promises a breakthrough in near-authentic skin transplant: dense, elastic, and multi-layered. In experimental mice, hair even grows at the burn site. T-Invariant explores how this technology was developed and how close it is to clinical application. A white, thin sheet glimmers in the light. It looks and feels similar to the backing of children’s stickers. In this case, though, the sheet itself actually is the sticker, attached to a foil backing. Dana Cohen-Gerassi lifts it with her fingernail, and the white sheet peels away, leaving delicate, web-like threads stretching toward the foil. In the case of a sticker, this would be glue, but here we see the nano-fiber itself — the scaffold for the future artificial skin, composed of multiple layers of ultra-fine threads.
T-Invariant
Modular Systems Accelerating Automation in Research Environments — Paving the Way for “Autonomous Experiments” Through AI and Robotics
DENSO WAVE has announced its new “COBOTTA LAB Modules” line to promote automation in research and inspection tasks. Complementing the existing packaged “COBOTTA LAB Standard System,” this line offers flexibility to freely reconfigure modules according to users' research themes and site configurations, making automation implementation easier for research departments. The “COBOTTA LAB Modules” adopt a modular structure based on a linear layout. Components and devices connect via a “plug-and-play” method, allowing easy reconfiguration or addition of modules. This design also facilitates adaptation to changing research themes, with the collaborative robot “COBOTTA” autonomously navigating between modules using its travel axes. Building on technologies cultivated through industrial compact robots and peripheral devices, the company has been strengthening its deployment of automation systems for research environments since 2024. It announced versatile standard systems for tasks like “liquid mixing,” “volume measurement,” and “powder weighing” in September 2024, advancing the efficiency of research operations. This modular design represents an evolution of that approach, ultimately aiming to realize a future research environment where “experiments and analyses tailored to specific objectives are performed autonomously through AI and robotics.” By automating data collection and analysis processes, researchers can focus more on creative experimental design and hypothesis verification. Denso Wave plans to continue expanding its compatible modules sequentially, building an automation foundation to address the challenges faced by research sites grappling with chronic personnel shortages and increasing workloads.
DxMedical Cloud™︎
AI-Enhanced Smartwatch-Based AHI Estimation and Validation of AI-Scored Polysomnography
Samsung Electronics' AI-based smartwatch (Galaxy Watch 6), developed and granted de novo approval by the FDA, has been demonstrated to measure apnea-hypopnea index (AHI) in real-world settings with accuracy equivalent to Level 1 polysomnography (PSG) in Korean adults. The study compared smartwatch data with PSG data from 53 subjects. The smartwatch-estimated AHI (eAHI) showed strong correlation (ρ=0.88, ICC=0.87) with the AI-processed PSG AHI (aiAHI), demonstrating high sensitivity and specificity, particularly for detecting and classifying moderate to severe obstructive sleep apnea (OSA). Although eAHI was slightly underestimated in mild OSA, its practical portability and continuous monitoring capability suggest potential as an auxiliary tool for early diagnosis and long-term management of OSA in clinical settings.
Dove Medical Press