D bioprinting uses living cells as "ink" to create functional tissues. Discover how this technology is transforming medicine ...

3D printers may one day become a permanent fixture of the operating theatre after scientists showed they could print bone-like structures containing living cells. Scientists from UNSW Sydney have ...

In a recent study, Associate Professor Makoto Ikeya (Department of Clinical Application) and his team of researchers successfully established a method to generate jawbone-like organoids (mini-organs) ...

Researchers have interwoven various bone cells into an 'organoid' that can independently make new, hard bone tissue. It's the most complete 3D model of bone formation to date.

A new miniature 3D model of human bone marrow has been described today in the open-access eLife journal. The model may help clinicians predict which patients will benefit from a new therapy for blood ...

Crown Bioscience developed a 3D bone marrow niche (BMN) model to advance preclinical drug screening for hematological malignancies such as acute myeloid leukemia (AML) and multiple myeloma (MM ...

New research from Professor Guillermo Ameer’s team shows how a shape change of a cell’s nucleus can trigger regenerative ...

Anatomy of the chip. The bone marrow chip is the size of a USB memory stick and made of clear silicone rubber, with two parallel channels separated by a membrane. The top channel is filled with bone ...

The real magic happens when stem cells called bone marrow mesenchymal stem cells (BM-MSCs) are introduced to these 3D-printed scaffolds. These remarkable cells are able to transform into various cell ...

Schematic of the bone-on-a-chip. A three-dimensional (3D) bone-on-a-chip with the potential to study cancer metastasis has been developed by researchers at The Pennsylvania State University.The ...