Bioengineering Blow: 3D Printed Human Skin with Hair Follicles
3D printing of human skin, including hair follicles, promises to revolutionize burn treatment.
3D printing of human skin, including hair follicles, promises to revolutionize burn treatment.
The possibility of grafts made with real 3D "biological suits" can completely transform reconstructive surgery
The convergence of three key technologies will lead to revolutionary discoveries but also risks of inequality and chaos. You need to prepare.
UCLA bioengineers have designed and tested a soft patch that, when applied to the neck, is capable of making the voiceless speak.
An artificial gland mimics the spider silk production process, opening new frontiers in the medical and textile sectors.
Innovative research: bioengineered viruses become electrical sources, generating energy through heat. New frontiers in sustainability are opening up.
From drone warfare to bioengineering: today science fiction inspires defense strategies against threats to national security
AI finds new dynamics for diagnostics, including heart shape: sphericity could indicate oncoming heart disease.
The combination of LIDAR and computational processing allows these bionic cameras to see even beyond obstacles.
A new field of study known as "necrobotics" is born. Researchers used dead spiders to grab objects
These “factories” capable of continuously delivering the drug in a targeted manner were injected into mice and cured colorectal and ovarian tumors in just under a week.
The biocompatible antimicrobial cornea adhesive will be able to replace conventional sutures and adhesives which have negative side effects.
They could help growers understand the best time to use fertilizers on their crops
Brian Armstrong started the new company with the goal of extending life while preserving the possibility of human regeneration
Is it possible to predict the unpredictable? A year later, the method developed by Stanford to predict a "black swan" continues to prove itself.
Imperial College London creates new “Living Bricks” filled with bacteria, which show extraordinary properties.
Cancer cells in acidosis gorge themselves on these fatty acids, remaining "poisoned". There is hope of defeating cancer
A team of researchers reprogram cartilage cells to produce the anti-inflammatories on their own to react to inflammatory stress.
Grow furniture instead of building it? That's what they're trying to find out at MIT, growing wood in the laboratory as meat is done today, and without trees being felled.
A technological glove can translate sign language into listenable words: it will allow you to break down any barrier of understanding.
Groundbreaking results from a University of California, Berkeley study open up the possibility of diluting plasma and its harmful proteins to reverse aging