The goal of a biomaterial is to support the bone tissue regeneration process at the defect site
and eventually degrade in situ and get replaced with the newly generated bone tissue …

There has been an escalation in reports over the last decade examining the efficacy of bone
marrow derived mesenchymal stem/stromal cells (BMSC) in bone tissue engineering and …

Since it was first discovered, thousands of years ago, silkworm silk has been known to be an
abundant biopolymer with a vast range of attractive properties. The utilization of silk fibroin …

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 …

Bone tissue plays multiple roles in our day-to-day functionality. The frequency of accidental
bone damage and disorder is increasing worldwide. Moreover, as the world population …

Silk fibroin (SF) is a promising biomaterial due to its good biocompatibility, easy availability,
and high mechanical properties. Compared with mulberry silk fibroin (MSF), nonmulberry …

Human bones have unique structures and characteristics, and replacing a natural bone in
the case of bone fracture or bone diseases is a very complicated problem. The main goal of …

Grafting of bone-substitute biomaterials plays a vital role in the reconstruction of bone
defects. However, the design of bioscaffolds with osteoinductive agents and biomimetic …

Over the past few decades, Bombyx mori silk fibroin has become a ubiquitous material for
applications ranging from biomedical devices to optics, electronics, and sensing, while also …

Silk fibroin is a protein with intrinsic characteristics that make it a good candidate as a
scaffold for tissue engineering. Recent works have enhanced its benefits by adding …