In the present study, different weight ratios of electrospun bioactive glass nanofibers (3, 5,
10, 15, 25 and 35 wt%)(BGF) were added to calcium sulfate cement (CSC). Physical and …

Bone disease and disorder treatment might be difficult because of its complicated nature.
Millions of patients each year need bone substitutes that may help them recover quickly from …

Calcium phosphate cements (CPCs) have been used in a number of medical and dental
procedures due to their excellent osteoconductivity and bone replacement capability …

Bone regeneration required suitable scaffolding materials to support the proliferation and
osteogenic differentiation of bone-related cells. In this study, a kind of hybridized …

Both nanostructures and conformations of different protein/polysaccharide additives have
critical influence on the performance of calcium sulfate (CS) bone cements. Silk fibroin (SF) …

Inherent brittleness and slow degradation are the major drawbacks for the use of calcium
phosphate cements (CPCs). To address these issues, biodegradable ultrafine fibers were …

Background Calcium phosphate cement (CPC) can be molded or injected to form a scaffold
in situ, which intimately conforms to complex bone defects. Bioactive glass (BG) is known for …

Fibrous scaffolds that reconstruct the extracellular matrix (ECM) have been utilized for tissue
regeneration demonstrated potential for guiding stem cell differentiation. Nanofibrous …

Bioactive glasses (BGs), due to their ability to influence osteogenic cell functions, have
become attractive materials to improve loaded and unloaded bone regeneration. BG …

The hybrids of bioactive glass-ceramic (BG) decorated carbon nanofibers (CNFs) have
drawn wide interest as bone repairing materials. Herein, hybridized CNFs were produced …