Biomaterials have been widely used in tissue engineering applications at an increasing rate
in recent years. The increased clinical demand for safe scaffolds, as well as the diversity and …

Large injuries to bones are still one of the most challenging musculoskeletal problems.
Tissue engineering can combine stem cells, scaffold biomaterials, and biofactors to aid in …

Injectable hydrogels based on various functional biocompatible materials have made rapid
progress in the field of bone repair. In this study, a self-healing and injectable …

Tissue regeneration based on the utilization of artificial soft materials is considered a
promising treatment for bone-related diseases. Here, we report cranial bone regeneration …

Over the past few decades, gellan gum (GG) has attracted substantial research interest in
several fields including biomedical and clinical applications. The GG has highly versatile …

In this study, carboxymethyl cellulose (CMC)-glycol chitosan (GC) hydrogel, a potential three-
dimensional (3D) printing biomaterial ink for tissue engineering applications was …

Lactoferrin (L) and gellan gum (G) nanoparticles were produced in different biopolymer
proportions through electrostatic complexation to enhance the antimicrobial properties of …

Bone and joint infections are a rare but serious problem worldwide. Lactoferrin's
antimicrobial and antibiofilm activity coupled with its bone-regenerating effects may make it …

Due to its wide-ranging endocrine functions, adipose tissue influences the whole body's
metabolism. Engineering long-term stable and functional human adipose tissue is still …

Effective treatment of cartilage defects represents a challenging problem, mainly due to the
tissue's limited intrinsic self-repair capacity; the use of polymeric scaffolds as tissue …