By downscaling needles tool to micrometer-size, researchers open even more areas of application for them, while bypassing some of the most important issues.
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Researchers from Penn State led two international collaborations to prototype a wireless, wearable transmitter while also improving the transmitter design process.
The Fraunhofer Institutes project M³Infekt aims to develop a multi-modal, modular and mobile system of sensors for monitoring infectious diseases.
Researchers have demonstrated a novel multifunctional ultrathin contact lens sensor layer with transistors that may revolutionise the manufacture of smart contact lenses.
The new device can continuously sense levels of virtually any protein or molecule in the blood. The researchers say it could be transformative for disease detection, patient monitoring and biomedical research.
The supplier sector will showcase its expertise and innovative high-tech solutions for the medical technology industry.
Researchers have created fundamental electronic building blocks out of tiny structures known as quantum dots and used them to assemble functional logic circuits.
Xsensio has been awarded CHF 1.8 million in EU funding to adapt its Lab-on-Skin sensing patches so that they can detect when a viral illness like the flu or COVID-19 is about to get worse.
Scientists are working on inventions to use microchip technology in implantable devices and other wearable products such as smart watches to improve biomedical devices.
Researchers at the University of Connecticut have developed a lensless microscope that allows an observer to enjoy an enormous field of view.
A wearable monitoring device to make treatments easier and more affordable for the millions of people with swallowing disorders is about to be released into the market.
Researchers have developed an organ-on-an-electronic-chip platform, which uses bioelectrical sensors to measure the electrophysiology of the heart cells in three dimensions.
A scientist is working to develop miniature implantable medical devices that sense and communicate wirelessly via sound waves.
Scientists have developed a soft wearable hand robot that can aid the hand-disabled by using machine learning algorithm and sensory hardware.
Smaller than an M&M and thinner than a credit card, device can optimize treatment of neonatal jaundice, skin diseases, seasonal affective disorder and reduce risk of sunburns and skin cancer.
Made of electronic circuits coupled to minute particles, cell-sized robots could flow through intestines or pipelines to detect problems.
Prosthetics for arms and legs have evolved from the rudimentary wooden appendages of just a few decades ago.
MIT researchers have built an ingestible sensor equipped with genetically engineered bacteria that can diagnose bleeding in the stomach or other gastrointestinal problems.
Researchers have developed a flexible and stretchable wireless sensing system designed to be comfortably worn in the mouth to measure the amount of sodium a person consumes.