Synthesis and characterization of nano biocomposite (PMMA-hydroxyapatite - CaZrO3) for bone tissue engineering (original) (raw)

POLYMER-PLASTICS TECHNOLOGY AND MATERIALS , 2024

Abstract

In a common scenario, bone fractures have a self-healing function with free-surgical intervention. However, some fractures in bone tissue are complex and leave behind remnant deformation that requires biomaterials for replacement. The aim of this study is to develop a new composite 3D scaffold for bone regeneration and replacement composed of calcium zirconate (CaZrO3), hydro xyapatite (HA) and polymethylmethacrylate (PMMA) polymer. Different 3D scaffolds were fabri cated by mixing 90, 80, 70, and 60 wt. % PMMA with HA and CaZrO3 nanoparticles in different concentrations. X-ray diffraction (XRD), field emission scanning electron microscopy (FE-SEM) and atomic force microscopy (AFM) techniques were applied to characterize the 3D composite scaffold properties. Furthermore, the mechanical properties of the fabricated scaffolds were investigated using Brazilian diametral fracture test. It was found that incorporating a uniform distribution of HA nanoparticles significantly increased the surface roughness of the composite scaffold. Furthermore, the fracture strength of the fabricated 3D scaffolds showed a remarkable improve ment of 86% in the sample containing 90% PMMA, 7% HA, and 3% CaZrO3 compared to the sample devoid of CaZrO3. Our findings strongly indicate that integrating hybrid CaZrO3-HA nanoparticles into PMMA polymer for the production of 3D composite scaffolds holds significant promise for bone tissue applications, potentially enhancing their efficacy and performance.

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