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, ...

Human embryo models capable of synthesizing their own blood have been developed, in an advance that could lead to new treatments for blood disorders as well as the production of stem cells for ...

This article explores how advances in automation, 3D cell models and AI are transforming high-throughput screening, driving ...

University of Cambridge scientists have used human stem cells to create three-dimensional embryo-like structures that replicate certain aspects of very early human development—including the production ...

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A new 3D human brain tissue platform developed by MIT researchers is the first to integrate all major brain cell types, ...

The team observed the emergence of the three-dimensional embryo-like structures under a microscope in the lab. These started producing blood (seen here in red) after around two weeks of development - ...

Smartphones can accurately assess neuromuscular diseases, using video and free apps that provide faster and easier way to detect diseases earlier.

Scientists have discovered a method to induce human endothelial cells from a small biopsy sample to multiply in the laboratory, producing more than enough cells to replace damaged blood vessels or ...

When Graeme F. Woodworth, MD, decided to focus his research efforts on glioblastomas, “everybody thought it was a dead end,” the neurosurgeon recalled. It wasn’t an unusual path for him. His first job ...

Blood is a masterstroke of biology, a blend of simplicity and complexity that scientists are still decoding with wide-eyed wonder.