
Sweat sensor inspired by cactus spine
A sweat-collecting patch has been developed using the principle based on how the cactus spines attract water.
A sweat-collecting patch has been developed using the principle based on how the cactus spines attract water.
This overview introduces smart insulin delivery systems and more innovations that help patients and doctors guide decision-making in diabetes care.
Bioprinted 3D cardiac patches could reverse scar formation and promote myocardial regeneration after heart attacks.
The lung is rather challenging to create artificially for experimental use due to its complex structure and thinness. Researchers have succeeded in producing an artificial lung model using 3D printing.
A new concept of on-demand drug delivery system has emerged in which the drugs are automatically released from in vivo medical devices simply by shining light on the skin.
Researchers developed a multimodal ion-electronic skin that distinguishes temperature from mechanical stimuli.
Researchers have produced biodegradable stents with esophageal-derived bioink to directly treat radiation esophagitis.
With the advent of pharmacogenomics, machine learning research is well underway to predict patients' drug response that varies by individual from the algorithms derived from previously collected data on drug responses.
Researchers have revealed the mechanism behind making materials used in new memory devices by using artificial intelligence.
Researchers have developed ultrasensitive sensors that can detect microwaves with the highest theoretically possible sensitivity.
Researchers developed wirelessly driven ‘smart contact lens’ technology that can detect diabetes and further treat diabetic retinopathy just by wearing them.
Researchers have 3D printed an artificial cornea using the bioink which is made of decellularized corneal stroma and stem cells.