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3D printed polycaprolactone/gelatin/ordered mesoporous calcium magnesium silicate nanocomposite scaffold for bone tissue regeneration

Zahra Mirzavandi, Seyed Ali Poursamar, Farshad Amiri, Ashkan Bigham, Mohammad Rafienia

2024Journal of Materials Science Materials in Medicine11 citationsDOIOpen Access PDF

Abstract

Tissue engineering scaffolds are three-dimensional structures that provide an appropriate environment for cellular attachment, proliferation, and differentiation. Depending on their specific purpose, these scaffolds must possess distinct features, including appropriate mechanical properties, porosity, desired degradation rate, and cell compatibility. This investigation aimed to fabricate a new nanocomposite scaffold using a 3D printing technique composed of poly(ε-caprolactone) (PCL)/Gelatin (GEL)/ordered mesoporous calcium-magnesium silicate (om-CMS) particles. Different weight ratios of om-CMS were added and optimized, and a series of scaffolds were constructed for comparison purposes, including PCL 50%/Gel 50%, PCL 50%/Gel 45%/om-CMS%5, and PCL 50%/Gel 40%/om-CMS%10. The optimized weight ratio of om-CMS was 10% without leaving behind negative effects on the filaments' structure. The scaffolds' physical and chemical properties were assessed using various techniques, and their degradation rate, bioactivity potential, cell viability, attachment, and ALP activity were evaluated in vitro. The results demonstrated that the PCL 50%/Gel 40%/om-CMS10% scaffold had promising potential for further studies in bone tissue regeneration.

Topics & Concepts

Materials sciencePolycaprolactoneGelatinScaffoldNanocompositeRegeneration (biology)SilicateMesoporous materialCalciumMagnesiumChemical engineeringCalcium silicateBiomineralizationBone tissueBiomedical engineeringComposite materialPolymerMetallurgyOrganic chemistryCell biologyCatalysisChemistryEngineeringMedicineBiologyBone Tissue Engineering MaterialsAdditive Manufacturing and 3D Printing TechnologiesGraphene and Nanomaterials Applications
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