Bone regeneration is an interdisciplinary complex lesson, including but not limited to
materials science, biomechanics, immunology, and biology. Having witnessed impressive …

Tissue engineering has become a promising strategy for repairing damaged cartilage and
bone tissue. Among the scaffolds for tissue-engineering applications, injectable hydrogels …

Bone defects stand out as one of the greatest challenges of reconstructive surgery. Fused
deposition modelling (FDM) allows for the printing of 3D scaffolds tailored to the morphology …

Recent advancements in biopharmaceutical industry have facilitated the development of
novel bioactive macromolecular therapeutics. One of the challenges towards the clinical use …

Mesenchymal stem cells (MSCs) have been widely used in the fields of tissue engineering
and regenerative medicine due to their self-renewal capabilities and multipotential …

Abstract Three-dimensional (3D) printing technology has become an advanced approach for
fabricating patient-specific scaffolds with complex geometric shapes to replace damaged or …

Bioceramics, particularly calcium phosphates, bioactive glasses, and crystalline silicates,
are a principal group of biomaterials employed for the regeneration of damaged tissues and …

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

To overcome the drawbacks of single-layered wound dressings, bilayer dressings are now
introduced as an alternative to achieve effective and long-term treatment. Here, a bilayer …

Bone is a mineralized conjunctive tissue, with a unique trauma healing capability. However,
the replacement or regeneration of lost bone is not always successful and becomes more …