This study uses multimodal imaging—including SHG, SIMS, and TEM—to reveal how fibroblasts interact with 3D collagen scaffolds ...

Researchers at the University of Sheffield are developing a 3D cell culture platform with the potential to revolutionise laboratory research into tissue engineering. The culture of human cells in the ...

The Global 3D Cell Culture Market is expected to witness a double-digit growth rate by 2027. Some of the key factors driving ...

“Cells growing in [organoid culture] have a structure to hold them on to, but they also tend to have different types of cells within those organoids,” said Crispim da Fontoura. “That gives them a more ...

The reconstructed 3D cell tissue is subjected to a PET scan. Innovative system enables efficient evaluation of future cancer ...

"Our research is a necessary first step for the future of tissue engineering. Right now, it can print more physiologically relevant 3D environments for cell culture, and in the long term ...

Kim states, "Under standard culture conditions ... More information: Jae‐Seong Lee et al, 3D Bioprinting‐Assisted Tissue Assembly of Endocrine Adipose Units for Enhanced Skin Regeneration ...

Optimizing gelatin hydrogels for volumetric 3D bioprinting. Insights from Rousselot’s Jos Olijve on the ENLIGHT bioprinting ...

The study also explored repairing penile tissue damage in rabbits and ... After 14 days of in-vitro culture, the implantable 3D-printed organ was ready with a fused endothelial layer.

An international team of researchers from China, Japan, and the US has taken an important step in the 3D printing of organs, an intriguing but extremely challenging aspect of biomedical engineering.