The BCM 3D Organoid Core streamlines the production and maintenance of various organoid lines derived from different human tissues, offering these services on demand through a centralized system. The ...

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 ...

“3D bioprinting has emerged as an attractive tool to create tissues and organs with natural physiological structures which replicate biological functions and are able to self-heal,” says Wang.

The study of 3D organoids has transformed biomedical research, offering a more accurate representation of in vivo conditions. Maximizing the potential of 3D organoid ...

In this way, HITS-Bio can exponentially speed up 3D bioprinting cell structures. “We can then build scalable structures very fast. It’s 10-times faster than existing techniques and maintains ...

including the use of z-stacking and montaging to accurately visualize the 3D structures. Image and cellular analysis methods will also be shown to quantify metrics such as stem cell organoid budding, ...

Join a panel of experts, including Chia-Wei Hsu from CAS, Shrike Zhang from Harvard Medical School, Axel Guenther from the University of Toronto, and Adam Feinberg from Carnegie Mellon University, as ...

Bioprinting is a technology used to create ... PZT thin film material has enhanced the potential for high-resolution 3D ...

1 The company’s current comprehensive and highly published portfolio of cell biology technologies includes tumor spheroids, stem cell organoids, and tissue engineering via 3D bioprinting.