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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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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.
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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 research introduces time axis to AI for accurate control of industrial fermentation processes
The research team led by Professor Jinjin Li at Shanghai Jiao Tong University has successfully commercialized an “AI industrial automatic control system based on transfer learning and physical explainability” (AI automatic control system, ManuDrive). ManuDrive introduces a time dimension into industrial fermentation processes, enabling dynamic control through AI.By dynamically controlling parameters in complex biological fermentation processes and generating optimal fermentation plans in real time for any future point in time, it significantly increases industrial fermentation production. In the field of biological fermentation, time is a major influencing factor. Microorganisms exhibit significant differences at each growth stage, and their growth status determines the success or failure of the fermentation process. To ensure fermentation quality, human engineers typically perform manual control around the clock based on years of accumulated experience.Professor Jinjin Li's team at Shanghai Jiao Tong University has developed and successfully implemented an AI-based automatic control system, introducing the time dimension into industrial fermentation processes and enabling precise control of these processes.
Food pairing AI that can quantify the flavor compatibility of ingredients - Developed by a domestic university and a startup
The Food Chemistry Laboratory at the University of Shizuoka and its venture company, DigSense LLC, have developed an AI program called “F-index PairingSM” that can quantify the flavor compatibility of ingredients as a new technology that will bring innovation to food development, which has traditionally relied on people's experience and senses. The practical application of this technology, a masking flavor oil called “AlomaEdge-ACE-”, will go on sale from Monday, April 14, 2025.
Analysis of vital data related to headaches in women using wearable devices
In conjunction with “Headache Day” on February 22, 2025 *1, Tech Doctor Inc. will be presenting the results of an internal study on the changes in vital data associated with the menstrual cycle in women. According to a nationwide survey in Japan, the prevalence of migraine headaches is reported to be 3.6% in men and 12.9% in women. These figures show that women suffer from migraines at a rate of approximately 3.6 times that of men. In recent years, there has been a growing belief that there is a deep connection between female hormones and migraines. In fact, many women complain of headaches a few days before or during their periods, and this is when female hormones are at their lowest point in the menstrual cycle. In this study, Tech Doctor used a commercially available wearable device (Google Fitbit) to collect data on the menstrual cycle and headaches from over a dozen women, and analyzed the characteristics of the data. As a result, a relationship was confirmed between the timing of the menstrual cycle, the presence or absence of headaches, and sleep time. In the future, it is hoped that by conducting further detailed research based on these data, individuals will be able to gain a deeper understanding of their own body rhythms and expand their healthcare options. Furthermore, by making use of these findings, we aim to develop digital biomarkers*3 of pain and quality of life (QOL) for both men and women, and to use them to facilitate early detection and appropriate care.
WEARABLE NEUROTECHNOLOGY: THE NEXT-GENERATION OF SLEEP OPTIMIZATION
Neurotechnology start-up Elemind is tackling sleep as its first category in a wider push to advance health and well-being innovation around what it calls “electronic medicine.” Founded in 2019, US-based Elemind has developed a smart headband that is able to read and respond to an individual's electroencephalogram (EEG) brainwaves in real time and deliver precise acoustic stimulation to influence a person's brain state. The start-up says it is “building the future of electric medicine,”—developing wearable neuromodulation technology designed to mimic the benefits of pharmaceuticals by influencing brain waves to change behavior and establish certain brain states.
New possibilities for medical treatment utilizing smartwatches
In recent years, smartwatches have
evolved into important devices
that support personal health management.
This article introduces
the various health management functions of smartwatches,
examples of their use in actual medical settings,
and points to consider when using them.
Behavior Change Support Systems for Self-Treating Procrastination: Systematic Search in App Stores and Analysis of Motivational Design Archetypes
Promoting neuroplasticity for better recovery and function restoration has lately become the focus of rehabilitation techniques for individuals with neurologic disorders. A rapidly expanding medical specialty, neuromodulation includes a broad variety of methods for activating particular neurological pathways, such as Transcranial magnetic stimulation (TMS), Transcranial direct current stimulation (tDCS), peripheral nerve stimulation, and SCS, among many others. Research on the use of neuromodulation in the context of spinal cord injury (SCI) is limited, in contrast to the abundance of literature on its potential benefits in chronic pain treatment. Combining exercise with non-invasive neuromodulation improves recovery outcomes for some patient groups, according to our research. While we mostly focus on the motor components of recovery, we do briefly mention the non-motor effects of these disorders. The difficulties of applying ideas in clinical practice and the gaps in the existing research are also brought to light. In order to better customize the individual neuroplastic responses associated with each disease, we identify research gaps and propose routes for future investigations. This review is useful for rehabilitation professionals and researchers since it focuses on neuroplastic exercise treatments for specific illnesses and diagnoses. Few studies have used long-term randomized-controlled trials, even though these approaches have great promise for enhancing overall functionality and impairment levels. If these novel modalities may be therapeutically employed to reduce pain, restore function, and improve the quality of life for individuals impacted, then more study is required to support them.
Development of health foods for the prevention of metabolic syndrome
Mogrol is a naturally derived component found in plants of the Cucurbitaceae family, making it an ideal ingredient for the development of health foods aimed at preventing metabolic syndrome. In this project, we evaluated the safety and functionality of naturally derived mogrol in humans and elucidated the molecular mechanisms in vivo using cultured cells and experimental animals. Furthermore, by advancing the new technology “new enzyme reaction technology,” we have established a method to efficiently produce Mogroll and purify it to high purity. Compared to conventional technologies, this method achieves: ① over 1,000 times higher production volume, ② a price reduced to less than 1/100, ③ applicability as raw materials for food, cosmetics, and pharmaceuticals, and ④ reduced environmental impact.
Biocompatible Nanoparticles: Tiny Antennae with Huge Potential for Brain-Computer Interfaces
From enhancing mobility and motor function to improving sensory capabilities, brain-computer interfaces (BCI) can expand our human capabilities by enabling seamless communication, improving cognitive functions, and accelerating the development of medical treatments. However, current fundamental limitations with current invasive and non-invasive technologies suggest that for consumer-grade BCI to become ubiquitous, new technologies need to be developed and validated. In order to realize the fullest potential of BCI, we need a system that 1) transmits data wirelessly 2) does not rely on surgical installation 3) maintains the proximal contact between nerve tissue and material required for efficient transfer of energy and information, and 4) can both stimulate and record neural activity (or bidirectional capabilities). To bridge the gap between invasive and non-invasive technologies, nanoscale materials, such as biocompatible nanoparticles, provide a promising alternative, allowing us to design materials at the scale of cellular systems and structures.
The challenge of flavor masking in high-protein bean drinks
High protein legume drinks have gained popularity in recent years due to their health benefits and convenience as a protein source. However, one of the main challenges faced by manufacturers in this market is the flavor masking of legume-based proteins, which can have a strong and sometimes undesirable taste. In this report, we will explore the flavor masking challenges in high protein legume drinks and discuss the strategies companies are using to overcome them.
Biomaterial-based chitosan nanohydrogel films: combination of Bistorta officinalis and Ca-doped carbon dots for improved blood clotting
Bleeding and traumatic injuries are still a major issue necessitating the development of advanced hemostatic materials that are economical, biocompatible, and effective. Chitosan’s (CS) haemostatic and biocompatible properties make it a promising wound-healing material, however, effective cross-linking is essential for appropriate physiochemical properties. In this study, calcium-doped carbon dots (CDs) produced from coriander leaves were used as cross-linking agents to improve the functional performance and structural integrity of nanohydrogel films. Furthermore, extract of the medicinal plant Bistorta officinalis (BEX), a traditional medicinal plant with strong hemostatic and antibacterial qualities, was incorporated into the hydrogel matrix.
Development of biomass quantum dots made from cellulose nanofibers
The Green Science Alliance is developing chemical products from plants and biomass with the aim of creating a sustainable, carbon-neutral society. This time, they have developed quantum dots from cellulose nanofibers.
4 ways alt materialsvstart-up are shaking up functional food
Various startup companies are focusing on guaranteeing that the raw materials they develop have functional benefits.
Wearable Technology for Detecting Abnormal Walking and Correcting Posture Using IMU
Walking is a complex process, and abnormal walking increases the risk of joint deformities. Inward and outward rotation of the foot is a common health problem, and wearable technology is attracting attention.