The complexity of the TME in vivo limits the conclusions that can be drawn from in vivo models. Optimizing cell culture ...

Neurons are the cells in the brain responsible for sending messages to the rest of the body, and scientists have long thought ...

Discover how 3D organoids are already shaping research & drug development today and explore their future potential.

Human-induced pluripotent stem cells (hiPSCs) have shown remarkable potential in various applications including cell therapy, regenerative medicine, and ...

A new process, named STAMP, from MIT which uses 3D printing could help researchers to properly align fibers in artificial ...

In recent years, significant progress has been made in understanding tissue regeneration, tumor dynamics and the role of inflammation in these processes.

Newcastle University scientists, supported by funding from Versus Arthritis, have created an innovative bioprinting method that produ ...

Aged individuals and astronauts experience bone loss despite rigorous physical activity. Bone mechanoresponse is in-part ...

A key stage of the drug development process is testing on in-vitro cell ... However these 2D models aren’t comparable to the human body where cells interact with other cells in a 3D environment.