Bone regenerative engineering provides a great platform for bone tissue regeneration
covering cells, growth factors and other dynamic forces for fabricating scaffolds. Diversified …

Unique mechanical properties, miscibility potency, and biodegradability are the three
prominent features of polycaprolactone (PCL), making it an attractive biomaterial which …

Bone tissue engineering (BTE) has attained enough attention towards fabricating a scaffold
for the treatment of bone injury. To develop an ideal scaffold, various techniques and …

Patients receiving orthopedic implants are at risk of implant-associated infections (IAI). A
growing number of antibiotic-resistant bacteria threaten to hamper the treatment of IAI. The …

The extracellular matrixes (ECM), as well as the microenvironmental signals, play an
essential role in osteogenesis by regulating intercellular pathways. Recently, it has been …

Successful regeneration of critical-size defects remains one of the significant challenges in
regenerative engineering. These large-scale bone defects are difficult to regenerate and are …

This study aims to perform biological assessments of an electroactive and anti-infection
scaffold based on polycaprolactone/0.5 wt% silver nanoparticles (PCL/AgNPs) that was …

Wound healing, one of the most complex processes of the body involving the cooperation of
several important biomolecules and pathways, is one of the major therapeutic and economic …

Bone marrow mesenchymal stem cells (BMSCs) are thought to have great potential in the
treatment of many diseases and may serve as a cell source for tissue engineering. These …

Bone regenerative biomaterials are essential in treating bone defects by supplying
fundamental extracellular substrates where cells can adhere, proliferate, and differentiate …