MK: Our technology allows researchers working with human cell culture to overcome the long-standing issue of purity, consistency, and scalability. We are now able to generate human brain cells, blood ...

The consistent and optimized production of living human cells for drug discovery and regenerative medicine faces many challenges including the need for cost effective large scale expansion, improved ...

For the first time, researchers from both Sheba Medical Center and Tel Aviv University have grown human kidney organoids (a ...

In a new study, scientists at the Babraham Institute in U.K., have discovered a unique human cell state in culture that they call 8-cell-like cells (8CLCs), which transcriptionally resemble the 8 ...

A human cell culture model of the lung's most important immune cells, alveolar macrophages, helped make a key finding that is prompting researchers to rethink the role of another immune protein.

Sheba Medical Center and Tel Aviv University scientists developed a 3D 34-week human kidney; the study could lead to better ...

3D cell culture is the future of drug discovery and disease research. Scientists have relied on 2D cell culture and animal models for many years, but these models often fail to accurately replicate ...

Since cell lines can be contaminated and often have different genotypic and phenotypic characteristics compared to the original donor cells, their use in biomedical research is likely to produce ...

When these cells are provided with the correct environmental and chemical cues, they can be coaxed into interacting with each other and forming human tissue, including tissue that makes up our ...

The donor egg with the skin cell nucleus implanted. (Credit: OHSU) For the first time, scientists have successfully managed to "reprogram" adult human cells into embryonic stem cells.

Researchers also determined that 25HC killed senescent cells in mouse dermal fibroblasts, and in primary human cells from the lung, heart, liver, kidney and articular cartilage.

MK: Human stem cells are, in theory, a great source for generating human cells. Their main properties are 1) that they can be expanded infinitely, and 2) that they have the capability of giving rise ...