Uniform protein labeling in intact tissues is a challenge. An approach that allows antibodies to seep within organs could ...

A new technology developed at MIT enables scientists to label proteins across millions of individual cells in fully intact 3D ...

Hypothyroidism, a condition characterized by insufficient production of thyroid hormones, affects millions of people worldwide, often requiring lifelong daily hormone replacement therapy. Sernova’s ...

Immune cells called regulatory T cells have long been known for their role in countering inflammation. In the setting of ...

Thanks to a new technology called Moscot ("Multi-Omics Single-Cell Optimal Transport"), researchers can now observe millions of cells simultaneously as they develop into a new organ-for example, a ...

Researchers have developed a way of bioprinting tissues that change shape as a result of cell-generated forces, in the same way that it happens in biological tissues during organ development. The ...

Researchers at University of Galway have developed a way of bioprinting tissues that change shape as a result of ...

Scientists at the University of Galway have developed a new way of 4D bioprinting tissues that result in stronger organs.

The CuRVE framework and its implementation in eFLASH mark a significant advancement in volumetric single-cell analysis.