Researchers at Columbia University have developed a 3D-printed microneedle that can potentially transform hearing loss ...

This important work by Park et al. demonstrates an open-top two-photon light sheet microscopy (OT-TP-LSM) for lesser invasive evaluation of intraoperative 3D pathology. The authors provide convincing ...

Conventional lab-scale laser technology currently achieves this ultra low-noise, stable light via bulky, costly tabletop ...

The study helps in understanding about the nervous system's physical landscape and how the brain communicates with the spine.

Researchers have created a 3D atlas mapping brain regions that connect to V1 spinal interneurons, which shape motor output.

UC Santa Barbara researchers developed a compact, low-cost laser that matches the performance of lab-scale systems. Using ...

USC is leading a research team aiming to better understand retinitis pigmentosa and inform future treatments.

Researchers from Johns Hopkins University created a memristor effect in pentacene organic FETs. During experiments to ...

Before introducing microbots into a living organism, the designers need to ensure the structure won't fail when it encounters ...

Signals relayed to motor neurons from the brain enable muscle movement, but these signals typically pass through spinal interneurons before they reach their destination.

What does it take to design a new needle for medical use? When the needle needs to be much thinner and sharper than any ...