Additive manufacturing, also known as 3D printing, has emerged over the past 3 decades as
a disruptive technology for rapid prototy** and manufacturing. Vat polymerization, powder …

Enabling angiogenesis is critical for the success of tissue repair therapies and the fate of
tissue-engineered constructs. Although many biochemical signaling molecules have been …

Fibroblasts are the main cells of connective tissue and have pivotal roles in the proliferative
and maturation phases of wound healing. These cells can secrete various cytokines, growth …

Novel soluble cellulose-based nonionic biopolymers (CIs) with enhanced antimicrobial
properties and nonleachability were successfully produced using a sustainable one-pot …

Polycaprolactone (PCL) is a polymer material suitable for being prepared into porous
scaffolds used in bone tissue engineering, however, insufficient osteogenic ability and …

A fine-tuned combination of scaffolds, biomolecules, and mesenchymal stem cells (MSCs) is
used in tissue engineering to restore the function of injured bone tissue and overcome the …

Applications in additive manufacturing technologies for bone tissue engineering
applications requires the development of new biomaterials formulations. Different three …

The natural healing process of bone is impaired in the presence of tumors, trauma, or
inflammation, necessitating external assistance for bone regeneration. The limitations of …

Orthopedic interface tissue engineering aims to mimic the structure and function of soft-to-
hard tissue junctions, particularly bone-ligament, bone-tendon, and bone-cartilage …

Due to their characteristic resemblance of the mineral component of bone, calcium
phosphates are widely accepted as optimal bone substitute materials. Recent research …