Understanding how cells differentiate during early embryonic development is crucial for advancing regenerative medicine and ...

Historically, small molecule drugs have been precisely designed down to the atomic scale. Considering their relatively large complex structures, nanomedicines have lagged behind. Researchers argue ...

Dr. Paulina Bernal’s research on volumetric bioprinting has led to the development of faster, more efficient tissue models.

Oily fish (which, BTW, also includes mackerel, sardines, anchovies, and trout) contain a good deal of vitamin D, too, which ...

Understanding how cells differentiate during early embryonic development is crucial for advancing regenerative medicine and ...

This new CHIPS platform provides a crucial technological bridge between foundational FRESH™ 3D bioprinting capabilities and FluidForm Bio’s therapeutic mission—to create vascularized tissue constructs ...

In regenerative science, B7-33's potential to influence fibroblast activity and collagen turnover suggests possible implications for tissue repair and wound healing. Given that fibrosis is often a ...

Feeling drained? Struggling to keep up with your busy schedule? You’re not alone. Many people battle low energy or muscle weakness, without realizing their diet might be the culprit. Poor […] ...

The Federal Circuit issued a precedential opinion on March 4, 2025, that serves as valuable guidance for product-by-process claims, particularly ...

Scientists have developed oral nanorobots that target damaged heart tissue, deliver energy, and repair mitochondrial function ...

Neurons—the nerve cells responsible for transmitting electrical and chemical signals throughout the body—are organized in tissue, tending to cluster together in groups according to how they function.

Using their novel Freeform Reversible Embedding of Suspended Hydrogels (FRESH) 3D bioprinting technique, which allows for the printing of soft living cells and tissues, researchers built a ...