A new bioengineered neuronal circuit board "BioConNet" allows scientists to artificially engineer human brain-like wiring at scale and can be used to engineer any possible circuit. The fully ...

Scientists are exploring pig skin to gain a fuller understanding of how this process works. The result could mean uncovering ...

Growing tissues can crack, break, and dissociate to form structures that can later withstand immense forces.

Allergy research has historically relied on traditional systems such as 2D cell cultures and mouse models to uncover mechanisms underlying allergic ...

FemBloc becomes the latest Femasys product to achieve MDSAP certification, building on a proven track record of compliance --ATLANTA, Feb.

A study published in the journal Science Advances details a promising, new avenue toward improving awake brain mapping results by investigating the tiny, nearly imperceptible variabilities in patient ...

In a petri dish at Northwestern University, researchers grow organoids modeled on the human spinal cord: simplified, lab-made ...

A series of converging advances in bio-implant technology, from brain-spine interfaces to lab-grown spinal tissue, is bringing the long-elusive goal of spinal cord repair closer to clinical reality.

Researchers develop a 3D-printed, RNA-activated implant that silences the PTEN gene to promote nerve regrowth after spinal cord injury.

If we cut ourselves badly enough, we aren’t capable of recreating or regrowing our skin back to perfection. Most mammals are designed to scar; that is how we heal. While our skin may never look the ...

Researchers show how damaged tissue is reshaped to trigger painful bone formation in muscles and tendons CHINA, ...