Skip to main content
  1. Home
  2. Emerging Tech
  3. Health & Fitness
  4. News

Amazing new 3D printed skin is authentic enough to be used for transplants and scientific testing

Add as a preferred source on Google

We’re still years away from being able to fully 3D print biological organs like kidneys and hearts, but that doesn’t mean there’s not some interesting work being done in the meantime.

One such project is being carried out by investigators in Spain, who recently presented a prototype for a 3D bioprinter capable of mass-producing human skin. This bioink-based “skin” replicates the structure of actual human skin — complete with the same layer of epidermis to act as protection against the environment, with a thicker, deeper dermis that produces the collagen to give the skin its elasticity and strength.

Recommended Videos

“What we’ve done is to standardize and automatize the production of human skin through the technology of 3D printing,” José Luis Jorcano, professor of Bioengineering and Aerospace Engineering at Universidad Carlos III de Madrid, told Digital Trends. “Over the past 15 years, we’ve been developing a method to produce large surfaces of human skin starting from cells that we isolate from a small biopsy of one patient. This approach takes that work forward. It was natural for us to embrace bioprinting for the purpose of producing human skin, since up until now we’ve had to do this production manually.”

There are two main possible applications for the 3D-printed skin.

“The main application in the short term will be testing new compounds,” Professor Jorcano continued. “In many fields, they can no longer use animals for testing, such as in cosmetics. There is also the problem that, besides the ethical issue, in fields like pharmaceuticals the data that you gather cannot always be extrapolated to humans. As a result, what is needed are so-called ‘human scenarios’ that are as similar to human tissue as possible.”

Longer-term, it is hoped that the skin could also be used to create skin transplants for burn patients or those individuals with severe skin problems. To reach that point, it needs to the necessary approvals from regulatory agencies, which it is currently undergoing.

Watch this space.

Luke Dormehl
I'm a UK-based tech writer covering Cool Tech at Digital Trends. I've also written for Fast Company, Wired, the Guardian…
Home robots can already walk. The hard part is stopping them from crushing your glassware
1X’s NEO uses tactile sensing and force control to handle fragile objects, aiming at the kind of household work humanoids still struggle to do.
Baby, Person, Electronics

A robot can look convincing while walking across a stage and still be useless in a kitchen. Picking up a wet glass demands precision, quick corrections, and enough restraint to avoid squeezing too hard. 1X is tackling that problem with new tendon-driven hands for NEO, its humanoid home robot.

1X says each hand has 25 degrees of freedom, with 22 across the fingers and palm and another three in the wrist. Its joints can yield when pushed instead of staying rigid, giving NEO a better chance of handling household objects without treating every collision like a wrestling match.

Read more
This tiny gadget called Moodi could save your thumb during long reading sessions
This tiny remote thinks your finger deserves a vacation
DuRoBo Moodi

Digital reading has become more comfortable thanks to larger displays and e-paper screens, but one small annoyance remains: constantly reaching over to tap or swipe every page. DuRoBo believes it has a solution. The company has unveiled Moodi, its first Bluetooth page-turning remote, designed to make reading, browsing, and media control more comfortable across e-readers, tablets, and smartphones.

Unlike conventional page-turners that focus solely on e-books, Moodi doubles as a compact Bluetooth remote for scrolling through articles, controlling multimedia playback, and navigating long-form content. The device looks towards ergonomic accessories that aim to reduce repetitive hand movements during extended screen time.

Read more
Camera sensor breakthrough promises sharper images without hulking up your phone’s thickness
Camera sensors just got thinner. Your excuses for blurry photos didn't.
Representative Image

Researchers at Nagoya University have developed a new type of transparent optical sensor that could significantly reduce the size of camera sensors while improving image quality. Published in the journal ACS Nano, the study demonstrates how gallium-doped zinc oxide (GZO) nanosheets can detect red, green, and blue (RGB) light within a single pixel, potentially replacing the decades-old Bayer filter design used in nearly every digital camera today.

If commercialized, the technology could enable thinner smartphone cameras, higher-resolution medical imaging devices, and more compact sensors for automotive and aerospace applications, all while simplifying manufacturing.

Read more