Biological materials have robust hierarchical structures capable of specialized functions and
the incorporation of natural biologically active components, which have been finely tuned …

Collagen, gelatin, silk fibroin, hyaluronic acid, chitosan, alginate, and cellulose are
biocompatible and non-cytotoxic, being attractive natural polymers for medical devices for …

Composite scaffolds formed from polymers and bioglasses have been widely explored for
applications in regenerative medicine as they have suitable organic/inorganic structures and …

Recently, injectable hydrogels have attracted much interest in tissue engineering (TE)
applications because of their controlled flowability, adaptability, and easy handling …

Over the last few decades, extensive research has been carried out in the field of bioactive
scaffolds as replacement material in bone-tissue engineering. The scaffolds have been …

Hybrid scaffolds appear as a promising strategy to accelerate bone tissue repair due to their
biocompatibility and to combine physical, mechanical and biological characteristics similar …

Chitosan-smectite biocomposite was prepared by intercalation of protonated chitosan
molecules into the interlayer space of smectite in monolayer arrangement through cation …

Proper management of chronic wounds is critical to promoting healing and improving
patients' quality of life by reducing pain, preventing infection, and restoring function to …

To optimize the structural, mechanical, and bioactivity properties, several bioactive-
glass/chitosan/zeolite bio-nanocomposites were prepared using different methods and …

Repair of bone defects caused by excess reactive oxygen species (ROS) remains a clinical
challenge. It is essential to inhibit the overaccumulation of ROS to accelerate the bone …