A cube of healthy bone is anything but solid. Inside it, countless tiny channels carry fluid and help cells move, feed, and ...

Researchers from Tomsk Polytechnic University, as part of a scientific collaboration, proposed a one-step approach to improve ...

Piezoelectricity in native bones has been well recognized as the key factor in bone regeneration. However, the current additive-manufactured scaffolds mainly focus on the reconstruction of bionic ...

Researchers in Sweden have engineered a cell-free cartilage scaffold that can guide the body to rebuild damaged bone. By removing the cells but preserving the structure and natural growth signals, the ...

Researchers have developed a method to 3D print porous scaffolds made from hydroxyapatite (HA) – the primary mineral component of bone.

A bone-like composite developed at EPFL uses naturally occurring enzymes to accelerate mineralization through an ...

These fields aim to facilitate healing and restore lost function in damaged or diseased tissues and organs by integrating scaffolds, cells, and biological signaling molecules. This combination aims to ...

A recent study has developed a novel composite aerogel scaffold designed to enhance bone regeneration in cases of bone defects. Combining electrospun poly(lactic acid ...

Bone implants often fail to fully integrate with surrounding tissue, limiting their effectiveness in regeneration. A natural but often overlooked cellular process could hold the key to better outcomes ...

Researchers show that pharmacological activation of hypoxia signaling improves metabolism, limits fat accumulation, and ...