Abstract 3D printed bone scaffolds have the potential to replace autografts and allografts
because of advantages such as unlimited supply and the ability to tailor the scaffolds' …

Tissue is vital to the organization of multicellular organisms, because it creates the different
organs and provides the main scaffold for body shape. The quest for effective methods to …

Various artificial bone graft substitutes based on ceramics have been developed over the
last 20 years. Among them, calcium-silicate-based ceramics, which are osteoconductive and …

Bone fracture due to internal or external factors is one of the most common diseases in
today's orthopedic society. One of the techniques to solve these problems is to use artificial …

Abstract Calcium (Ca) and silica (Si) ions have attracted intense interest in biomedical
applications. The two ions are directly involved in many biological processes; for instance …

The Present work outlines the antibacterial activity of Fe 3 O 4 nanoparticles synthesized
through chemical combustion method where ferric nitrate is used as precursor material and …

The successful regeneration of bone tissue to replace areas of bone loss in large defects or
at load‐bearing sites remains a significant clinical challenge. Over the past few decades …

The bone, being an essential tissue in the human body, not only protects the organs inside
the body but also provides mechanical support, haematopoiesis, mineral storage and …

The ability to fabricate highly porous bioceramic scaffolds with triply periodic minimal surface
(TPMS) lattices that mimic the architecture of trabecular bone remains a challenge in …

In the present study three akermanite (Ca 2 MgSi 2 O 7), diopside (CaMgSi 2 O 6) and
baghdadite (Ca 3 ZrSi 2 O 9) applicable bioceramics were synthesized via a sol-gel based …