Bone tissue engineering has become one of the most effective methods for treating bone
defects. In this study, an electrospun tissue engineering membrane containing magnesium …

Electrospun bioactive nanofibers have great potential as promising reinforcement fillers for
next generation bone tissue engineering application. In the present study, electrospun …

Bone-mimicking scaffolds based on silk fibroin (SF) mixed with hydroxyapatite nanoparticles
(HA NPs) and titanium oxide (TiO 2) nanoparticles were created as materials for bone …

For bone tissue engineering, it requires that the scaffolds have excellent biocompatibility,
proper mechanical and osteoinductive properties. Electrospun nanofibers with extracellular …

In this study, a cell-free bone tissue engineering scaffold based on core–sheath fibers with
micro/submicro-scale structures were fabricated for bone regeneration. The composite fibers …

Developing a highly bioactive bone tissue engineering scaffold that can modulate the bone
remodeling process for promoting bone regeneration is a great challenge. In order to tackle …

Naturally bone is a hierarchical and highly integrative dynamic tissue that is continuously
remodeled by osteoblasts and osteoclasts. Deformities in bone due to trauma and/or …

Recently, herbal extract‐loaded nanofibers have been developed using different types of
components for tissue engineering applications. In this study, nanofibrous webs are …

Abstract According to the Indonesian Ministry of Health Research and Development
Agency's 2018 Basic Health Research (Riskesdas), bone defects, because of fracture cases …

The critical role of silica in bone homeostasis has motivated the development of silica‐based
biomaterials for orthopedic applications. Whereas polymer nanofibers have emerged as …