Skip to main content

Nanoengineers develop first biocompatible, 3D-printed blood vessel networks

3D-printed organs are a biopunk’s dream and which may soon come true thanks to researchers from the University of California, San Diego.

Led by Shaochen Chen, the team of nanoengineers developed a new method for 3D printing biomimetic blood vessel networks, which may help lay the foundation for functioning lab-grown tissue and organs.

Recommended Videos

Artificial blood vessel networks — which help transport nutrients, blood, and waste — have been 3D printed by other researcher labs in the past, though these methods have proven to be time-consuming and expensive. In his research, Chen sought to make the process faster and cheaper and to develop a network sophisticated enough to be integrated with the human body.

“We used hydrogel biomaterials that are biocompatible for potential clinical uses,” he told Digital Trends.

To make the vessels more efficiently, Chen and his team used multiple cell types and a new 3D-printing method they developed themselves.

Their first steps were to develop a 3D model of the blood vessel network on a computer, which then converts the model into a series of 2D images and transfers these images to millions of microscopic mirrors. The mirrors use ultraviolet (UV) light to reflect the images onto a mixture of live cells and polymers that solidify upon contact with the UV light. As the 2D images are solidified, one after another, the 3D structure begins to take shape.

While traditional techniques may take hours to complete, the UC San Diego lab can complete the task in just a few seconds, according to the researchers, who published a paper detailing their study in the journal Biomaterials.

So far, the researchers have been able to graft the 3D-printed tissue into the skin wounds of mice. After two weeks, they analyzed the wounds again and saw that the lab-grown tissue had successfully integrated into the host’s blood vessel network.

A startup called Allegro 3D is working to commercialize this technique, while Chen and his team are looking to optimize the conditions for growing fully functioning blood vessel networks for clinical applications.

Dyllan Furness
Former Digital Trends Contributor
Dyllan Furness is a freelance writer from Florida. He covers strange science and emerging tech for Digital Trends, focusing…
The best 3D printers under $500
3D printers are finally affordable. Here are the best models under $500
anycubic photon review 3d printer xxl 2

The 3D printing market has seen quite a few changes over the last few years. In just the span of a decade, the barrier to entry has dropped from well over several thousand dollars to under $200 in some cases. However, all entry and mid-level printers are not made equal. We have a few suggestions for prospective buyers and other information regarding alternatives not found on this list.

To some veterans of the 3D printing scene, this list may seem like it lacks a few of the most commonly recommended printers for newcomers. This is by design. Our list only considers printers with tested components from proven, reliable vendors. That's why we chose the Monoprice MP Mini v2 as our top pick--it's reliable and easy to use. We have avoided any printer with a frame primarily made from interlocking acrylic pieces and anything historically unreliable.
Most bang for your buck: Monoprice MP Mini v2
 
Pros:

Read more
Ceramic ink could let doctors 3D print bones directly into a patient’s body
ceramic ink 3d printed bones bioprinting australia 2

Scientists use a novel ink to 3D print ‘bone’ with living cells

The term 3D bioprinting refers to the use of 3D printing technology to fabricate biomedical parts that, eventually, could be used to create replacement organs or other body parts as required. While we’re not at that point just yet, a number of big advances have been made toward this dream over the past couple of decades.

Read more
The future of making stuff: Inside the evolution of 3D printing with Formlabs
future of 3d printing formlabs ces 2021 castablewax40

When 3D printing went mainstream in the mid-2010s and exploded in popularity, it was about as hyped up as it possibly could be. Evangelists told us it would fundamentally transform the way goods were made, and usher in a bold new era of creative freedom. Soon, they said, we’d be able to fabricate anything we wanted on-demand, Star Trek replicator style, right from the comfort of our own homes.

But of course, 3D printing didn't really live up to that high-flying dream. Instead, it made a momentary splash and then largely returned to the fringes, gaining adoption in hobbyist workshops and cutting-edge product design labs, but not really changing the face of manufacturing in the way many hoped it might.

Read more