The design of biomimetic porous scaffolds has been gaining attention in the biomedical
sector lately. Shells, marine sponges, shark teeth, cancellous bone, sea urchin spine, and …

Superparamagnetic iron oxide nanoparticles (SPION) are widely used in bone tissue
engineering because of their unique physical and chemical properties and their excellent …

Architected cellular materials are a class of artificial materials with cellular architecture-
dependent properties. Typically, designing cellular architectures paves the way to generate …

Bone cancer remains a critical healthcare problem. Among current clinical treatments,
tumour resection is the most common strategy. It is usually effective but may present several …

This research investigates the accelerated hydrolytic degradation process of both
anatomically designed bone scaffolds with a pore size gradient and a rectangular shape …

In the last decade, the development of customized biodegradable scaffolds and implants
has attracted increased scientific interest due to the fact that additive manufacturing …

Treating critical-size bone defects with autografts, allografts, or standardized implants is
challenging since the healing of the defect area necessitates patient-specific grafts with …

The use of biocompatible and biodegradable porous scaffolds produced via additive
manufacturing is one of the most common approaches in tissue engineering. The geometric …

The aging global population is generating an ever‐increasing demand for bone
regeneration. Various materials, including blocks, granules, and sponges, are developed for …

Large bone reconstruction following trauma poses significant challenges for reconstructive
surgeons, leading to a healthcare burden for health systems, long-term pain for patients, and …