Biomimetic Growth of Hydroxyapatite on SiO2 Microspheres to Improve Its Biocompatibility and Gentamicin Loading Capacity

Biomimetic Growth of Hydroxyapatite on SiO2 Microspheres to Improve Its Biocompatibility and Gentamicin Loading Capacity

The interest in multifunctional biomaterials to be implanted are also able to release drugs that reduce pain and inflammation or prevent a possible infection has increased. Bioactive materials such as silica (SiO2) containing surface silanol groups contribute to the nucleation and growth of hydroxya...

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Bibliographic Details
Published in:Materials Vol. 14; no. 22; p. 6941
Main Authors: Herrera-Alonso, Alejandra E., Ibarra-Alonso, María C., Esparza-González, Sandra C., Estrada-Flores, Sofía, García-Cerda, Luis A., Martínez-Luévanos, Antonia
Format: Journal Article
Language:English
Published: Basel MDPI AG 17-11-2021
MDPI
Subjects:
Biocompatibility
Biomedical materials
Biomimetics
Bones
Cell culture
Cell membranes
Cetyltrimethylammonium bromide
Cytotoxicity
Gentamicin
Heat treatment
Hydroxyapatite
Microparticles
Microspheres
Morphology
Nucleation
Polyethylene glycol
Silicon dioxide
Sodium dodecyl sulfate
Surfactants
Surgical implants
Tissue engineering
Variance analysis
Mexico
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Summary:The interest in multifunctional biomaterials to be implanted are also able to release drugs that reduce pain and inflammation or prevent a possible infection has increased. Bioactive materials such as silica (SiO2) containing surface silanol groups contribute to the nucleation and growth of hydroxyapatite (HAp) in a physiological environment. Regarding biocompatibility, the spherical shape of particles is the desirable one, since it does not cause mechanical damage to the cell membrane. In this work, the synthesis of SiO2 microspheres was performed by the modified Stöber method and they were used for the biomimetic growth of HAp on their surface. The effect of the type of surfactant (sodium dodecyl sulphate (SDS), cetyltrimethylammonium bromide (CTAB), and polyethylene glycol (PEG)), and heat treatment on the morphology and size of SiO2 particles was investigated. Monodisperse, spherical-shaped SiO2 microparticles with an average particle size of 179 nm, were obtained when using PEG (SiO2-PEG). The biomimetic growth of HAp was performed on this sample to improve its biocompatibility and drug-loading capacity using gentamicin as a model drug. Biomimetic growth of HAp was confirmed by FTIR-ATR, SEM-EDX and TEM techniques. SiO2-PEG/HAp sample had a better biocompatibility in vitro and gentamicin loading capacity than SiO2-PEG sample.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma14226941