Natural bone constitutes a complex and organized structure of organic and inorganic
components with limited ability to regenerate and restore injured tissues, especially in large …

Cellulose is the most abundant polysaccharide on Earth. It can be obtained from a vast
number of sources, eg cell walls of wood and plants, some species of bacteria, and algae …

In this paper, a spotlight is shown on polysaccharides based biomaterials which have
surfaced as a versatile platform for different biomedical applications including drug delivery …

Surface interaction at the biomaterial–cell interface is essential for a variety of cellular
functions, such as adhesion, proliferation, and differentiation. Nevertheless, changes in the …

In this review, we highlight the importance of nanostructure of cellulose-based biomaterials
to allow cellular adhesion, the contribution of nanostructure to macroscale mechanical …

The current need for long lasting implants and bone substitutes characterized by
biocompatibility, bioactivity and mechanical properties, without the immune rejection is a …

Bone tissue is the structural component of the body, which allows locomotion, protects vital
internal organs, and provides the maintenance of mineral homeostasis. Several bone …

Gelatin is a promising material as scaffold with therapeutic and regenerative characteristics
due to its chemical similarities to the extracellular matrix (ECM) in the native tissues …

The development of biodegradable and antibacterial hemostatic materials with high blood
absorption to halt the internal hemorrhage of deep noncompressible wounds remains a …

We report on the latest scientific advances related to the use of porous foams and gels
prepared with cellulose nanofibrils (CNF) and nanocrystals (CNC) as well as bacterial …