Computers are able to beat humans at chess (and basically any other game), perform calculations extremely fast, and do much ...

Researchers want trustworthy, human-relevant models. Integrating automation and AI into organoid development workflows—or opting for validated off-the-shelf models—are a few innovative and accessible ...

Microfluidic chip for skin organoid culture This chip adopts the patented technology of arrayed cell capture microwell structure and 4D time-series controlled culture. It realizes precise ...

Building on their heart organoid model, the researchers gradually added special factors and thus created a new, blood-generating heart organoid (blood-generating HFO, BG-HFO).This research success ...

Researchers at China’s Tianjin University and the Southern University of Science and Technology have reportedly developed a robot with a lab-grown artificial brain. Brain-on-chip technology has ...

Baylor College of Medicine's President and CEO, Dr. Paul Klotman discusses the state of the coronavirus in America and puts a special focus on the new Organoid Core Lab of Dr. Mary Estes and Dr. Sarah ...

The latest advance from Clevers and his group is the development of a new organoid that mimics the human fetal pancreas, offering a clearer view into its early development. The complete structure ...

Organoid technology has lately risen to prominence as a critical tool for both basic and biomedical research. Embryonic stem cells (ESCs), induced pluripotent stem cells (iPSCs), and primary ...

Techniques for analyzing cells, such as spatial biology, live-cell imaging and single-cell sequencing are advancing at a dramatic pace, alongside improved cell cultures, including organoid and ...