Trauma-and disease-related skeletal defects and illnesses are plaguing millions of people
especially in an ageing globe. Recently, the convergence of additive manufacturing (AM) …

Titanium (Ti) has been widely used for manufacturing of bone implants because of its
mechanical properties, biological compatibility, and favorable corrosion resistance in …

One of the greatest trends currently revolutionizing healthcare is the introduction of
advanced additive manufacturing techniques, also known as 3D printing, for personalized …

Sustainable and cleaner manufacturing systems have found broad applications in industrial
processes, especially aerospace, automotive and power generation. Conventional …

The main aim of bone tissue engineering is to fabricate highly biocompatible,
osteoconductive and/or osteoinductive biomaterials for tissue regeneration. Bone implants …

Owing to their mechanical resilience and non‐toxicity, titanium implants are widely applied
as the major treatment modality for the clinical intervention against bone fractures. However …

Architected metamaterials are built upon the assembly of repeating cellular structures,
exhibiting unprecedented mechanical properties attributed to the tunability of cellular …

Surface biofunctionalization aims to create cell-instructive surfaces that control the behavior
of cells and modulate cellular interactions by incorporating cell signaling moieties at the …

Recent advances in the orthopedic prostheses design have significantly improved the
quality of life for individuals with orthopedic disabilities. However, there are still critical …

The occurrence of an implant-associated infection (IAI) with the formation of a persisting
bacterial biofilm remains a major risk following orthopedic biomaterial implantation. Yet …