Scientists have developed a soft and nonirritating microfluidic sensor for the real-time measurement of lactate concentration in sweat.
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Artificial intelligence is developing at an enormous speed and intelligent instruments will profoundly change surgery and medical interventions.
Researchers developed a device that can monitor bladder volume in real time and effectively empty the bladder.
This overview introduces smart insulin delivery systems and more innovations that help patients and doctors guide decision-making in diabetes care.
Scientists have developed and tested a wearable biofuel cell array that generates electric power from the lactate in the wearer's sweat, opening doors to electronic health monitoring powered by bodily fluids.
Researchers combined motion analysis that uses smartphone application and machine learning that uses an anomaly detection method, thereby developing a technique to easily screen for carpal tunnel syndrome.
Researchers have developed a method for two individuals to share an avatar in Virtual Reality.
Researchers have developed a microneedle patch for monitoring glucose levels using a paper sensor.
Researchers have developed a system for integrating artificial chip-based 'neurons' with real neurons using QR-code-like patterns of light to facilitate communication.
Researchers are working on an interactive robot called Pharos that will help the elderly with their daily household chores.
“The digital transformation will make healthcare even more human. It will enable us to provide preventive and personalized healthcare,” says Prof. Dr. Koen Kas, Professor of Oncology at Ghent University, Belgium.
Researchers developed a novel method of growing whole muscles from hydrogel sheets impregnated with myoblasts and incorporated these muscles into a biohybrid robot.