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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Quickly Deliver Technical Information
We deliver what you seek quickly and in a short time from technical information from all over the world
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A wealth of detailed features makes it easy to understand the main points
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The report is also packed with analytical information from the perspective of growth and long-term strategies for business use
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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.
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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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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.
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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
Microbiome on a chip: a promising technology for modeling of human organ microbiomes and their interactions
The increasing knowledge of the makeup and role of organ microbiomes has created new possibilities for understanding and managing human illnesses. The models used for animal studies conducted in laboratory settings and live animals may not always offer the necessary insights. One in vitro cell culture system known as organ-on-a-chip technology has garnered interest as a way to collect data that accurately reflects human responses. Organ-on-a-chip (OoC) technology, while accurately simulating the function of tissues and organs, has largely covered the differences between animal and human systems. Microbiome-on-a-chip (MoC) offers benefits over other in vitro procedures, permitting dimensional observation of ecological dynamics, microbial growth, and host-associated interactions while regulating and assessing relevant environmental parameters such as pH and O2 in real-time. The fabricated MoC platforms can be designed to test microbiome-enabled therapies, to study culture and pharmacology, antibiotic resistance, and to model multi-organ interactions mediated by the microbiome. In the current overview, we provide a translational perspective and discuss different organs, such as: oral, skin, gut and vaginal microbiota on a chip and recently developed MoC-based devices. The commonly used MoC fabrication methods, such as microfluidics and 3D printing, have been explored, and the potential applications of MoC in microbiome engineering have been suggested.
Bioinspired Polymer Interfaces for Skin-Integrated Devices: Rethinking Comfort, Adhesion, and Biocompatibility
Shivani Srivastava, Marketing and Communications Lead, ChemBizR, explores the role of polymer interface materials in next-generation wearables and e-skin systems.
Music may reduce discomfort in patients with dementia
Anglia Ruskin University (ARU) and Cambridgeshire and Peterborough NHS Foundation Trusts have conducted a pilot study introducing music therapy for patients with dementia. The study adopted the MELODIC (Music Therapy in Everyday Life) approach and demonstrated positive effects on patients' quality of life and stress reduction. Additionally, this therapy is cost-effective and is considered a promising model for future research and practice.
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.
Smart Air Solutions for Smarter Textiles
India's textile industry is advancing in efficiency and environmental considerations through the introduction of automation and IoT technology, resulting in improved productivity and energy efficiency.Pneumatic equipment offers functions such as real-time monitoring, predictive maintenance, and improved energy efficiency, enabling smart operations. Companies like Atlas Copco are providing smart pneumatic equipment to achieve manufacturing processes aligned with Industry 4.0 goals. However, challenges remain, including data security, initial investment costs, and the need to enhance employee skills. India is the world's second-largest textile exporter, and pneumatic equipment plays a crucial role in its manufacturing processes.
Ultrasound Unlocks a Safer, Greener Way To Make Hydrogels
Conventional hydrogel manufacturing relied on chemical initiators, some of which were harmful. Sound waves generate microscopic bubbles, which collapse with enormous energy and trigger gel formation within minutes. This method also enables the formation of hydrogels inside the body for the treatment of injuries and tissue damage without surgery.
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
Changes in taste perception during category-incongruent taste-olfactory presentations using a breath-synchronized olfactory presentation device
Simultaneous presentation of category-mismatched visual and olfactory information with food
changes the perceived flavor, but the effect of category-mismatched taste-olfactory information on the per-
ceived flavor remains unclear. In this study, fish odor was presented during the ingestion of beef jerky
using the Breath-Synchronized Olfactory Display, and the effects of category-mismatched taste and olfac-
tory stimuli on perceived flavor were evaluated. As a result, the sensation of beef jerky was reduced with
the breath-linking olfactory fish odor stimuli, and the sensation of dried squid was strongly perceived. The
results suggest that the integrating category-mismatched taste and olfactory information changes the cate-
gorical perception of flavor.
Identifying lung cancer with a miniature olfactory sensor
Tsukuba University has developed a prototype system that uses an ultra-compact olfactory sensor capable of accurately measuring odors to detect the presence of lung cancer. By utilizing the correlation between odors and cancer, the system analyzes exhaled breath to make accurate determinations. This technology is expected to contribute to the early detection of diseases and the development of effective treatments. Compared to methods that use radiation, this approach also reduces the physical burden on the body.
Wearable Sensors and Artificial Intelligence for Sleep Apnea Detection: A Systematic Review
Sleep apnea, a prevalent disorder affecting millions of people worldwide, has attracted increasing attention in recent years due to its significant impact on public health and quality of life. The integration of wearable devices and artificial intelligence technologies has revolutionized the treatment and diagnosis of sleep apnea. Leveraging the portability and sensors of wearable devices, coupled with AI algorithms, has enabled real-time monitoring and accurate analysis of sleep patterns, facilitating early detection and personalized interventions for people suffering from sleep apnea. This article presents a systematic review of the current state of the art in identifying the latest artificial intelligence techniques, wearable devices, data types, and preprocessing methods employed in the diagnosis of sleep apnea. Four databases were used and the results before screening report 249 studies published between 2020 and 2024. After screening, 28 studies met the inclusion criteria. This review reveals a trend in recent years where methodologies involving patches, clocks and rings have been increasingly integrated with convolutional neural networks, producing promising results, particularly when combined with transfer learning techniques. We observed that the outcomes of various algorithms and their combinations also rely on the quantity and type of data utilized for training. The findings suggest that employing multiple combinations of different neural networks with convolutional layers contributes to the development of a more precise system for early diagnosis of sleep apnea.
New Trends in Bread Nutritional Fortification: Comprehensive Analysis of Chemical, Physical, Functional, and Nutritional Properties
This review provides a systematic overview of the latest advances in bread fortification. It focuses particularly on fortification strategies for water-soluble/fat-soluble vitamins (B vitamins, vitamin D, etc.), bioactive components (phenolic compounds, polyunsaturated fatty acids (PUFAs), essential oils), and dietary fiber, as well as their effects on the physicochemical properties (viscoelasticity, texture) and health benefits (antioxidant activity, blood glucose control) of bread.Particular attention is given to the application potential of innovative technologies, such as microencapsulation, in addressing the trade-off between nutrient stability and sensory characteristics.
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.
An innovative approach to diabetic wound management using smart bioactive dressings
The healing process of diabetic wounds is complex and differs from that of acute wounds. The microenvironment of diabetic wounds is characterized by high glucose levels, persistent inflammation, persistent infection, hypoxia, disordered factors, and dynamic pH disturbances. To address these challenges, researchers have developed microenvironment-responsive bioactive dressing materials with on-demand regulatory functions.