D cell cultures are no longer a futuristic idea. They’re already reshaping how we study diseases like cancer, offering more ...

MIT scientists have developed a new 3D human brain tissue model that could change how researchers study neurological diseases ...

John Szilagyi (left) is a Principal Scientist at Bristol Myers Squibb (NJ, USA), working in nonclinical development and investigative toxicology, with a focus on the development of models to study ...

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.

Advanced 3D cell models recreate the complexity of human tissues, enabling researchers to examine tumor progression, probe neurological disorders, and assess therapeutic candidates. By capturing the ...

Spheroids and organoids, two examples of 3D cell culture models, have become invaluable tools to study the processes that dictate behavior of tissues under physiological and pathological conditions, ...

The Advanced Cell Engineering and 3D Models (ACE-3M) Core provides established services offered previously by AIM and C-BASS cores plus new expanded capabilities for tumor organoids grown in 3D ...

The effectiveness of non-clinical drug safety predictions is enhanced by the adoption of three-dimensional (3D) cellular models. 3D bioprinting enables the generation of complex models with spatial ...

Human embryo models capable of synthesizing their own blood have been developed, in an advance that could lead to new ...

The development could help scientists develop patient-specific treatments and one day offer a lab-grown lung transplant ...

In the new study, the team used the model to demonstrate that as Alzheimer's pathology accumulates in the brain, specific types of immune cells called CT8+ T Cells surge into the brain and amplify the ...