Mg and its alloys have been identified as promising bone implant materials owing to their
natural degradability, good biocompatibility and favorable mechanical properties …

Recently, electrical stimulation as a physical stimulus draws lots of attention. It shows great
potential in disease treatment, wound healing, and mechanism study because of significant …

Annually, millions of patients suffer from irreversible injury owing to the loss or failure of an
organ or tissue caused by accident, aging, or disease. The combination of injectable …

Medical application materials must meet multiple requirements, and the designed implant
must mimic the bone structure in shape and support the formation of bone tissue …

Silk fibroin (SF) is a natural fibrous polymer with strong potential for many biomedical
applications. SF has attracted interest in the field of bone tissue engineering due to its …

Natural biomaterials are extensively used in tissue engineering due to their microstructure
interconnectivity and inherent bioactivity which mimics of natural extracellular matrix (ECM) …

Tissue engineering is a well-proven technique for the creation of functional alternatives for
regenerative medicine and plays a critical role in patient treatment. Several natural-origin …

In the present work, we aimed to synthesize highly efficient nano-composite polymeric
scaffolds with controllable pore size and mechanical strength. We prepared nanocomposite …

Biopolymers-induced immune microenvironment exhibited prominent effects on bone
regeneration. Osteo-immunomodulatory responses of cellulose nanoparticles incorporated …

The emerging 3D bioprinting technique that is strongly dependent on the development of
bioinks offers a promising opportunity to customize personalized bioscaffolds for precision …