Chitosan (Cs) and hydroxyapatite (HA) 3D scaffolds/composites were prepared with a sustainable process, as HA was obtained using CaCO3 derived from cork, a natural material used as a template agent. The HA@Cs composites were prepared with HA in situ formation in a Cs solution, with a dissolution-precipitation mechanism. Different reaction times were considered, with time of 72 h leading to the best materials (sample CsHA_72). X-ray Diffraction (XRD) analysis confirmed HA formation. The analysis of Cs unit cell parameters showed that, for the unmodified Cs, the cell had larger dimensions and a higher degree of distortion than previously reported in literature; HA incorporation in the CsHA_72 composite led to a further increase in the cell dimensions. The morphology of the scaffolds was studied with Scanning Electron Microscopy (SEM) and a high level of porosity was observed; a statistical comparison was performed between the unmodified Cs and CsHA_72 to determine the pore size, structure, and distribution. This analysis, the first of this kind for this type of composites, showed smaller and more circular pores for the CsHA_72 composite (average diameter of 70 μm vs. 88 μm for unmodified Cs). The overall level of porosity, however, did not change (>77%); likewise, the Young modulus was not affected by HA incorporation (about 11 kPa). Antibacterial tests, performed on Escherichia coli and Staphylococcus aureus, showed that HA presence did not significantly reduce the antimicrobial properties; the composites were particularly effective towards S. aureus, as a >90% the bacterial population reduction was observed for an incubation time of 2 h. HA@Cs also showed excellent biocompatibility and good cell proliferation. The properties of these 3D scaffolds make them suitable for application as biomaterials.

Chitosan-hydroxyapatite composites made from sustainable sources: A morphology and antibacterial study / Scalera, F.; Pereira, S. I. A.; Bucciarelli, A.; Tobaldi, D. M.; Quarta, A.; Gervaso, F.; Castro, P. M. L.; Polini, A.; Piccirillo, C.. - In: MATERIALS TODAY SUSTAINABILITY. - ISSN 2589-2347. - 21:(2023). [10.1016/j.mtsust.2023.100334]

Chitosan-hydroxyapatite composites made from sustainable sources: A morphology and antibacterial study

Bucciarelli A.;
2023-01-01

Abstract

Chitosan (Cs) and hydroxyapatite (HA) 3D scaffolds/composites were prepared with a sustainable process, as HA was obtained using CaCO3 derived from cork, a natural material used as a template agent. The HA@Cs composites were prepared with HA in situ formation in a Cs solution, with a dissolution-precipitation mechanism. Different reaction times were considered, with time of 72 h leading to the best materials (sample CsHA_72). X-ray Diffraction (XRD) analysis confirmed HA formation. The analysis of Cs unit cell parameters showed that, for the unmodified Cs, the cell had larger dimensions and a higher degree of distortion than previously reported in literature; HA incorporation in the CsHA_72 composite led to a further increase in the cell dimensions. The morphology of the scaffolds was studied with Scanning Electron Microscopy (SEM) and a high level of porosity was observed; a statistical comparison was performed between the unmodified Cs and CsHA_72 to determine the pore size, structure, and distribution. This analysis, the first of this kind for this type of composites, showed smaller and more circular pores for the CsHA_72 composite (average diameter of 70 μm vs. 88 μm for unmodified Cs). The overall level of porosity, however, did not change (>77%); likewise, the Young modulus was not affected by HA incorporation (about 11 kPa). Antibacterial tests, performed on Escherichia coli and Staphylococcus aureus, showed that HA presence did not significantly reduce the antimicrobial properties; the composites were particularly effective towards S. aureus, as a >90% the bacterial population reduction was observed for an incubation time of 2 h. HA@Cs also showed excellent biocompatibility and good cell proliferation. The properties of these 3D scaffolds make them suitable for application as biomaterials.
2023
Scalera, F.; Pereira, S. I. A.; Bucciarelli, A.; Tobaldi, D. M.; Quarta, A.; Gervaso, F.; Castro, P. M. L.; Polini, A.; Piccirillo, C.
Chitosan-hydroxyapatite composites made from sustainable sources: A morphology and antibacterial study / Scalera, F.; Pereira, S. I. A.; Bucciarelli, A.; Tobaldi, D. M.; Quarta, A.; Gervaso, F.; Castro, P. M. L.; Polini, A.; Piccirillo, C.. - In: MATERIALS TODAY SUSTAINABILITY. - ISSN 2589-2347. - 21:(2023). [10.1016/j.mtsust.2023.100334]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/400073
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