Melt electro writing (MEW) is a high-resolution 3D printing technique that combines
elements of electro-hydrodynamic fiber attraction and melts extrusion. The ability to precisely …

Craniofacial bone regeneration is a coupled process of angiogenesis and osteogenesis,
which, associated with infection, still remains a challenge in bone defects after trauma or …

Bone tissue engineering (BTE) aims to develop implantable bone replacements for severe
skeletal abnormalities that do not heal. In the field of BTE, chitosan (CS) has become a …

Three dimensional (3D) scaffolds have huge limitations due to their low porosity, mechanical
strength, and lack of direct cell‐bioactive drug contact. Whereas bisphosphonate drug has …

Research in creating 3D structures mirroring the extracellular matrix (ECM) with accurate
environmental cues holds paramount significance in biological applications. Biomaterials …

Electrohydrodynamic (EHD) direct‐writing has recently gained attention as a highly
promising additive manufacturing strategy for fabricating intricate micro/nanoscale …

Despite the significant properties of titanium and its alloys as implants for biomedical
applications, the lack of proper osseointegration with human tissues, as well as the release …

A detailed investigation was employed on the manufacturing process of Glass Fiber (GF)
reinforced poly‐L‐lactide (PLLA) composites (GFRP) during in‐situ PLLA polymerization …

Bone defects are one of the main global health problems, and the scarcity of conventional
substitutes to treat this deficiency is a clinical disadvantage. Thus, bone tissue engineering …

In this study, a vacuum-assisted resin transfer molding system was designed to enhance the
conventional fabrication process of m acro-fiber composites (MFC) by replacing non …