Control of inflammation is indispensable for optimal oral wound healing and tissue
regeneration. Several biomaterials have been used to enhance the regenerative outcomes; …

Abstract Titanium dioxide (TiO2) nanoparticles (NPs) are one of the topmost widely used
metallic oxide nanoparticles. Whether present in naked form or doped with metals or …

Bone is a unique tissue that is capable of repairing itself after damage. However, there are
certain instances of fractures and defects that require clinical intervention for proper …

Reconstruction of the damaged bone is a striking challenge in the medical field. The bone
grafts as a current treatment is associated with inherent limitations; hence, the bone tissue …

Bone defects and diseases are devastating, and can lead to severe functional deficits or
even permanent disability. Nevertheless, orthopedic implants and scaffolds can facilitate the …

Despite the high regenerative capacity of bone tissue, there are some cases where bone
repair is insufficient for a complete functional and structural recovery after damage. Current …

The complex and hierarchical structure with high vascularization of human bone limits the
applications of traditional bone tissue engineering, especially in large bone defects …

Dental problems including cavities, periodontitis, apical periodontitis, and pulpitis are among
the most cost-consuming burden for both patients and the health care system all over the …

Polycyclic aromatic hydrocarbons (PAHs) are complex molecules produced by the thermal
decomposition of organic matter in anthropogenic activities. Novel composites with …

The bone tissue is the most dynamic structure in the human body, being capable of self-
regeneration after an injury, an accident or even when is affected by a disease. However, its …