By being able to use 3D-printed brain tissue that we can arrange in any way we need, research into the way our brain cells communicate with each other becomes much more approachable and ...

With the aid of a 3D printer, researchers at Uppsala University have succeeded in creating a model that resembles human nerve tissue.

With the aid of a 3D printer, researchers at Uppsala University have succeeded in creating a model that resembles human nerve tissue. The model, which can be cultured from the patient’s own ...

D bioprinted nerve tissues offer new hope for ALS drug testing. Uppsala team creates motor neuron organoids from patient ...

From a cubic millimeter of tissue, scientists constructed a precise, 3D map of the activity in a mouse’s brain, detailing 84,000 neurons and more than 500 million synapses.

(2025, January 30). 3D-printed brain-like environment promotes neuron growth. ScienceDaily . Retrieved June 11, 2025 from www.sciencedaily.com / releases / 2025 / 01 / 250130140810.htm ...

Protocol for producing nerve tissue developed. In the study, the researchers present a step-by-step protocol for how to produce more advanced and standardised models of nerve tissue in 3D. “It’s ...

The brain tissue of interest is embedded in this hydrogel. "Cellular components are linked to the hydrogel, meaning the cells' fine ultrastructure is imprinted onto the gel and preserved for ...

Here’s where 3D bioprinting is and where it’s going. How 3D Bioprinting and Bioinks Work. In 2004, the advent of 3D bioprinting opened a new era in tissue engineering, a field that had begun ...

Researchers in Australia have developed a new type of 3D bioprinter that uses sound waves to coax cells toward a desired output. Capable of producing fragile soft tissue and sturdier tissue such ...

Three-dimensional motor neuron organoids can now be produced from human stem cells using 3D printing and soft bioink, enabling the creation of nerve tissue models for ALS research.