Hydrogels with high water content and porous structures are excellent 3D scaffolds for
various applications in tissue engineering. Gelatin methacryloyl (GelMA) hydrogels with cell …

Abstract Three-dimensional (3D) bioprinting offers promising solutions to the complex
challenge of vascularization in biofabrication, thereby enhancing the prospects for clinical …

In recent years, three-dimensional (3D) bioprinting of conductive hydrogels has made
significant progress in the fabrication of high-resolution biomimetic structures with gradual …

Myocardial infarction is a cardiovascular disease characterized by a high incidence rate and
mortality. It leads to various cardiac pathophysiological changes, including …

Silk fibroin (SF) is a promising biomaterial due to its good biocompatibility, easy availability,
and high mechanical properties. Compared with mulberry silk fibroin (MSF), nonmulberry …

Abstract 3D bioprinting has unlocked new possibilities for generating complex and
functional tissues and organs. However, one of the greatest challenges lies in selecting the …

Abstract 3D printing is now recognized as a significant tool for medical research and clinical
practice, leading to the emergence of medical 3D printing technology. It is essential to …

Current perspectives on applying functionalized carbon nanotubes (ƒ-CNTs) in
nanomedicine and bioengineering are diversely projected onto designing safe, effective …

In tissue engineering, 3D printing represents a versatile technology employing inks to
construct three-dimensional living structures, mimicking natural biological systems. This …

Since the need for vascular networks to supply oxygen and nutrients while expelling
metabolic waste, most cells can only survive within 200​ μm of blood vessels; thus, the …