Breaking News
Tell General Mills To Reject GMO Wheat!
Climate Scientists declare the climate "emergency" is over
Trump's Cabinet is Officially Complete - Meet the Team Ready to Make America Great Again
Former Polish Minister: At Least Half of US Aid Was Laundered by Ukrainians...
Top Tech News
Forget Houston. This Space Balloon Will Launch You to the Edge of the Cosmos From a Floating...
SpaceX and NASA show off how Starship will help astronauts land on the moon (images)
How aged cells in one organ can cause a cascade of organ failure
World's most advanced hypergravity facility is now open for business
New Low-Carbon Concrete Outperforms Today's Highway Material While Cutting Costs in Minnesota
Spinning fusion fuel for efficiency and Burn Tritium Ten Times More Efficiently
Rocket plane makes first civil supersonic flight since Concorde
Muscle-powered mechanism desalinates up to 8 liters of seawater per hour
Student-built rocket breaks space altitude record as it hits hypersonic speeds
Researchers discover revolutionary material that could shatter limits of traditional solar panels
'Breakthrough' penny-sized nanochip pad is able to regrow organs and heal injuries
The new device uses nanochips to reprogramme skin cells which then generate any type of cell necessary for medical treatment.
The non-invasive procedure takes less than a second and in laboratory trials was found to restore the function of badly damaged blood vessels within days.
With this technology, we can convert skin cells into elements of any organ with just one touchDr. Chandan Sen, Ohio State University
Dubbed tissue nanotransfection (TNT), the technique works by placing a small pad of nanochips over a damaged area.
A small electric current then fires DNA into the skin cells, converting them into the specific building block cells of any other part of the body, such as arteries, or even organs like the heart.
It promises to transform the chances of patients in need of complex reconstructive surgery, as well as those whose organs are prematurely ageing.