Characterization of nanofibrous scaffolds for nanomedical applications involving poly (methyl methacrylate)/poly (vinyl alcohol)

Tissue engineering benefits from electrospun scaffolds, particularly as drug carriers and reconstructive materials for orthopedic implants, as well as many other uses obtaining a large number of publications in a short period in the region through the production of complex scaffolds, the development of new nanotechnology processes, and improvement of imaging methods. Labeling these materials has become critical to achieving accurate and satisfactory results. This is an excellent method for mimicking the extracellular matrix of bone using biodegradable and biocompatible polymers for bone restoration. In this project, electrospinning of a PMMA: PVA scaffold is used. These composite fibers had a clear and continuous shape when examined under a scanning electron microscope (SEM), and their components were identified using (FTIR). Experiments revealed that this characterization of significant effects in the electrospinning method for biomedical applications plays an important role in producing implant coating materials for bone reconstruction.