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

Limitations associated with conventional bone substitutes such as autografts, increasing
demand for bone grafts, and growing elderly population worldwide necessitate development …

Repairing of large bone injuries is an important problem in bone regeneration field. Thus,
developing new therapeutic approaches such as tissue engineering using 3D scaffolds is …

Strontium (Sr) and strontium ranelate (SR) are commonly used therapeutic drugs for patients
suffering from osteoporosis. Researches have showed that Sr can significantly improve the …

Polymer-based composite scaffolds are an attractive class of biomaterials due to their
suitable physical and mechanical performance as well as appropriate biological properties …

Nanobiotechnology-enabled tissue engineering strategies have emerged as an innovative
and promising technique in the field of regenerative medical science. The design and …

Dental problems including cavities, periodontitis, apical periodontitis, and pulpitis are among
the most cost-consuming burden for both patients and the health care system all over the …

Synthetic bone graft substitutes have attracted increasing attention in tissue engineering.
This study aimed to fabricate a novel, bioactive, porous scaffold that can be used as a bone …

Bacterial infection associated with bone grafts is one of the major challenges that can lead to
implant failure. Treatment of these infections is a costly endeavor; therefore, an ideal bone …

The global population is growing older and entering an aging society. Aging results in
severe tissue disorder and organ dysfunction. Bone-related injuries are particularly …