Bone disorders are of significant worry due to their increased prevalence in the median age.
Scaffold-based bone tissue engineering holds great promise for the future of osseous …

The increasing need for joint replacement surgeries, musculoskeletal repairs, and
orthodontics worldwide prompts emerging technologies to evolve with healthcare's …

Nickel-titanium (NiTi) is an attractive alloy due to its unique functional properties (ie, shape
memory effect and superelasticity behaviors), low stiffness, biocompatibility, damping …

NiTi is categorized as a shape memory alloy that found interesting applications in vast areas
of engineering from aerospace to biomedical; the latter applications are due to its …

The field of biomaterials has become a vital area, as these materials can enhance the
quality and longevity of human life and the science and technology associated with this field …

Cellular structures with highly controlled micro-architectures are promising materials for
orthopedic applications that require bone-substituting biomaterials or implants. The …

Critically engineered stiffness and strength of a scaffold are crucial for managing
maladapted stress concentration and reducing stress shielding. At the same time, suitable …

Porous and functionally graded materials have seen extensive applications in modern
biomedical devices—allowing for improved site-specific performance; their appreciable …

Bone tissue engineering is an emerging interdisciplinary field in Science, combining
expertise in medicine, material science and biomechanics. Hard tissue engineering …

New metal alloys and metal fabrication strategies are likely to benefit future skeletal implant
strategies. These metals and fabrication strategies were looked at from the point of view of …