The use of bioactive glass (BG) particles as a filler for the development of composite
electrospun fibers has already been widely reported and investigated. The novelty of the …

Bone tissue engineering integrates biomaterials, cells, and bioactive agents to propose
sophisticated treatment options over conventional choices. Scaffolds have central roles in …

Regeneration of fractured or diseased bones is the challenge faced by current technologies
in tissue engineering. The major solid components of human bone consist of collagen and …

In this work, we fabricated injectable bone substitutes modified with the addition of bioactive
glass powders synthesized via ultrasonic energy-assisted hydrothermal method to the …

Interest in the development of new generation injectable bone cements having appropriate
mechanical properties, biodegradability, and bioactivity has been rekindled with the advent …

In the present work, chitosan (CS) nanofibers were mineralized in order to enhance their
osteoconductivity and the calcium phosphate (CaP) compounds formed on the surface were …

Background Bone cement plays an important role in the treatment of osteoporotic vertebral
compression fractures. Calcium phosphate cement (CPC) is a potential alternative to poly …

In recent years, nanocomposite scaffolds made of bioactive polymers have found multiple
applications in bone tissue engineering. In this study composite nanofibrous structure of …

Electrospinning is a method in which materials in solution are formed into nano-and micro-
sized continuous fibers under electrostatic field. This is especially important and forms one …

One of the very reliable, attractive, and cheapest techniques for synthesizing nanofibers for
biomedical applications is electrospinning. Here, we have created a novel nanofibrous …