The wafer-thin, feather-light sensor can fit on a fingernail and precisely measures a person’s exposure to UV light from the sun.
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Researchers have used 3D bioprinting technology to create custom-shaped cartilage. They aim to make it easier for surgeons to safely restore the features of skin cancer patients living with nasal cartilage defects after surgery.
Scientists have developed a new generation of microneedles technology which allows the intradermal delivery of living cells in a minimally invasive manner.
Engineers have created a tiny wireless implant that can provide real-time measurements of tissue oxygen levels deep underneath the skin.
Deep learning-based system enables dermatologist-level identification of suspicious skin lesions from smartphone photos, allowing better screening.
An AI algorithm is capable of diagnosing 134 skin disorders and supporting specialists by augmenting the accuracy of diagnoses and predicting treatment options.
Researchers used a skin cream infused with microscopic particles, named STAR particles, for therapy of Skin diseases
Researchers are using laser scalpels and precision robotics to make tattoo removal faster, more accurate and less painful.
Watching immersive 3D videos of icy Arctic scenes helps to relieve burning pain and could hold hope for treating chronic pain.
Collaborators are developing an endoscopic robotic system with two-handed dexterity at a much smaller scale than existing options.
A series of procedures have shown how surgeons can use computer-generated augmented reality imaging while operating on patients undergoing reconstructive lower limb surgery.
Researchers successfully used CRISPR/Cas9 to limit the impact of schistosomiasis and liver fluke infection, affecting more than a quarter of a billion people in Southeast Asia, sub-Saharan Africa, and Latin America.
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.
Smart surgical glasses Caduceus use revolutionary technology that combines mixed reality with surgical navigation that allow surgeons to visualize a 3D model of a patient’s body during surgery in real time.