University of Missouri researchers are developing new ways to better simulate the complex nature of human brain tissue. For years, scientists have worked to uncover how the brain responds to ...

Combining microscopy, scanning, and deep learning enables more precise imaging of functional dynamics in neural networks of human cortical organoids.

A 3D model accurately mimicking the Blood-Brain Barrier (BBB) in a laboratory environment has been successfully developed by research teams led by Professor Jinah Jang from the Departments of ...

MIT scientists have developed a new 3D human brain tissue model that could change how researchers study neurological diseases. The platform, called Multicellular Integrated Brains or miBrains, ...

A research team has successfully developed a three-dimensional (3D) brain model that closely mimics the structure and function of the human brain. The study was published in the International Journal ...

Follow this guide to create a detailed 3D printed brain model. Learn tips and techniques to achieve accurate and impressive ...

Scientists at MIMETAS have published a new study describing a scalable, self-assembling human blood-brain barrier (BBB) model that combines physiological relevance with high-throughput capability. The ...

A new 3D human brain tissue platform developed by MIT researchers is the first to integrate all major brain cell types, including neurons, glial cells and the vasculature into a single culture. Grown ...

A research team led by Professor Dong-Woo Cho (Department of Mechanical Engineering, POSTECH) and Professor Jinah Jang (Departments of Mechanical Engineering, IT Convergence Engineering, Life Sciences ...