Wearable device could reduce racial disparities in blood measurements.
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The wearable devices aim to reduce or redistribute spine loading associated with heavy manual work.
Robotic cane with 3D camera can accurately guide user to chosen location, avoiding obstacles.
Researchers have experimentally demonstrated a novel cancer diagnosis technique based on the scattering of circularly polarized light.
Engineers have created a tiny wireless implant that can provide real-time measurements of tissue oxygen levels deep underneath the skin.
A system that uses flexible, breathable magnetic skin allows people with severe quadriplegia to move around and choose their surroundings.
Researchers have used lasers and molecular tethers to create perfectly patterned platforms for tissue engineering.
The following seven robotic systems are either currently being deployed or developed for the fight against the coronavirus.
Artificial intelligence is developing at an enormous speed and intelligent instruments will profoundly change surgery and medical interventions.
Researchers explain how computer scientists and clinicians are trying to reduce fatal medical errors by building “ambient intelligence” into the spaces where patients reside.
New muscle has successfully been created in mice using a minimally invasive technique dubbed ‘intravital 3D bioprinting’.
By adding infrared capability to the ubiquitous, standard optical microscope, researchers hope to bring cancer diagnosis into the digital era.
Researchers have developed a tiny nanolaser that can function inside of living tissues without harming them.
Researchers are developing a simple retinal prosthesis that could restore sight to blind people. Fabricated using cheap and widely-available organic pigments used in printing inks and cosmetics, it consists of tiny pixels like a digital camera sensor on a nanometric scale.