Soft electrodes designed to perfectly match a person's brain surface may help advance neural interfaces for neurodegenerative ...

How do you fit a sensor to a unique brain? Researchers created personalized 3D-printed bioelectrodes that match individual ...

Researchers used 3D printing and capillary action to create customizable neural chips, expanding design freedom for brain research, biosensors and biocomputing. (Nanowerk News) Cultured neural tissues ...

CNS-3D Brain Organoids Predict Clinical Seizure Liability Central nervous system (CNS) toxicity accounts for 25% of safety ...

The field of neuroscience is making incredible strides, with researchers now able to replicate the brain's intricate networks using 3D bioprinting. This groundbreaking technique allows scientists to ...

The innovative multi-task neural network achieves simultaneous depth estimation and soft-edge detection in a single network, producing clear 3D reconstructed images of relief-type cultural heritage ...

CNS toxicity remains one of the leading causes of failure in drug development, yet it is rarely detected in preclinical ...

Scientists studying human neural organoids could only record and stimulate activity from limited regions because conventional flat electronics do not conform well to the tissues’ three-dimensional, ...

The soft, three-dimensional (3D) electronic framework wraps around an organoid like a breathable, high-tech mesh. Rather than sampling select regions, it delivers near-complete, shape-conforming ...