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Advances in Biodegradable 3D Printed Scaffolds with Carbon-Based Nanomaterials for Bone Regeneration

Sara López de Armentia, Juan Carlos del Real Romero, Eva Paz, Nicholas Dunne

2020Materials38 citationsDOIOpen Access PDF

Abstract

Bone possesses an inherent capacity to fix itself. However, when a defect larger than a critical size appears, external solutions must be applied. Traditionally, an autograft has been the most used solution in these situations. However, it presents some issues such as donor-site morbidity. In this context, porous biodegradable scaffolds have emerged as an interesting solution. They act as external support for cell growth and degrade when the defect is repaired. For an adequate performance, these scaffolds must meet specific requirements: biocompatibility, interconnected porosity, mechanical properties and biodegradability. To obtain the required porosity, many methods have conventionally been used (e.g., electrospinning, freeze-drying and salt-leaching). However, from the development of additive manufacturing methods a promising solution for this application has been proposed since such methods allow the complete customisation and control of scaffold geometry and porosity. Furthermore, carbon-based nanomaterials present the potential to impart osteoconductivity and antimicrobial properties and reinforce the matrix from a mechanical perspective. These properties make them ideal for use as nanomaterials to improve the properties and performance of scaffolds for bone tissue engineering. This work explores the potential research opportunities and challenges of 3D printed biodegradable composite-based scaffolds containing carbon-based nanomaterials for bone tissue engineering applications.

Topics & Concepts

BiocompatibilityMaterials scienceScaffoldElectrospinningNanomaterialsTissue engineeringNanotechnologyPorosityContext (archaeology)Biomedical engineeringComposite materialEngineeringPolymerBiologyMetallurgyPaleontologyBone Tissue Engineering MaterialsGraphene and Nanomaterials ApplicationsAdditive Manufacturing and 3D Printing Technologies
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