A breakthrough in the understanding of how mammals create red blood cells could lead to opportunities for artificial blood to ...

Connexin 41.8 governs timely haematopoietic stem and progenitor cell specification. Haematopoietic stem and progenitor cells ...

The UCLA advance opens the door to growing other vascularized organ models, including intestines and colons, providing ...

Scientists have created a near-copy of the long-extinct dire wolf. Using advanced CRISPR gene editing tech, it now looks ...

Zebrafish have the remarkable and rare ability to regrow and repair their hearts after damage. New research from Caltech and ...

Blood vessels grown in the lab in just five days could quickly prevent the tissue damage that can occur after an accident ...

"It took about five hours to generate a computer model of a tree to vascularize a human heart. We were able to get to a density where any cell in the model would have been about 100 to 150 microns ...

For over a decade, scientists have been growing organoids—small clusters of cells that mimic a particular organ—to serve as miniature biological models. Organoids of the brain have been used ...

The erectile tissue of the human penis is composed of elastic fibers, collagen fibers, smooth muscles, arteries and veins, and has important functions in the mechanism of penile erection (1 – 5). Some ...

Our heart organoids have blood vessels and all the cell types found in the human heart, such as cardiomyocytes and pacemaker cells, which give them an edge over 2D cellular models.

Researchers have successfully printed a variety of human organs such as kidneys, blood vessels, bones, muscle and skin tissue, and even a functioning heart. [ Related: ] ...

Scientists craft embryo model mimicking early human blood development The model can help evolve “better methods for growing cells for blood transfusions, novel cell therapies, and hematopoietic ...