Researchers at TU Wien have developed a new way to grow cartilage from stem cells and guide it into basically any shape required. The breakthrough could lead to better ways to patch up injuries.

Archaeologists have long been intrigued by stone spheroids, peculiar artifacts scattered across archaeological sites worldwide. Dating as far back as 2.5 million years, these roughly spherical ...

Although spheroids lack organoids’ engineered complexity, their 3D structure puts them miles ahead of conventional 2D cell culture models, particularly for drug screening.

A new method of bioprinting uses aspiration of tiny biologics such as spheroids, cells and tissue strands, to precisely place them in 3D patterns either on scaffolding or without to create ...

Limestone spheroids, enigmatic lithic artifacts from the ancient past, have perplexed archaeologists for years. While they span from the Oldowan to the Middle Palaeolithic, the purpose behind ...

Validation of real-time, live-cell assays for 3D multi-spheroids formed on bio-matrices This application note addresses these issues, using the IncuCyte® Live-Cell Analysis system and IncuCyte® 3D ...