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In Vitro Comparative Study of Oxygen Plasma Treated Poly(Lactic–Co–Glycolic) (PLGA) Membranes and Supported Nanostructured Oxides for Guided Bone Regeneration Processes

Authors :
Junta de Andalucía
European Commission
Torres-Lagares, Daniel [0000-0001-9302-7138]
Castellanos-Cosano, Lizett [0000-0002-8361-7035]
Serrera-Figallo, María Ángeles [0000-0002-1279-4237]
López-Santos, Carmen [0000-0001-8782-7331]
Barranco, Ángel [0000-0002-8099-7669]
González-Elipe, Agustín R. [0000-0002-6417-1437]
Gutiérrez-Pérez, José-Luis [0000-0003-2624-1454]
Torres-Lagares, Daniel
Castellanos-Cosano, Lizett
Serrera-Figallo, María-Ángeles
López-Santos, Carmen
Barranco, Ángel
González-Elipe, Agustín R.
Gutiérrez-Pérez, José-Luis
Junta de Andalucía
European Commission
Torres-Lagares, Daniel [0000-0001-9302-7138]
Castellanos-Cosano, Lizett [0000-0002-8361-7035]
Serrera-Figallo, María Ángeles [0000-0002-1279-4237]
López-Santos, Carmen [0000-0001-8782-7331]
Barranco, Ángel [0000-0002-8099-7669]
González-Elipe, Agustín R. [0000-0002-6417-1437]
Gutiérrez-Pérez, José-Luis [0000-0003-2624-1454]
Torres-Lagares, Daniel
Castellanos-Cosano, Lizett
Serrera-Figallo, María-Ángeles
López-Santos, Carmen
Barranco, Ángel
González-Elipe, Agustín R.
Gutiérrez-Pérez, José-Luis
Publication Year :
2018

Abstract

(1) Background: The use of physical barriers to prevent the invasion of gingival and connective tissue cells into bone cavities during the healing process is called guided bone regeneration. The objective of this in-vitro study was to compare the growth of human osteoblasts on Poly(Lactic–co–Glycolic) (PLGA) membranes modified with oxygen plasma and Hydroxyapatite (HA), silicon dioxide (SiO2), and titanium dioxide (TiO2) composite nanoparticles, respectively. (2) Methods: All the membranes received a common treatment with oxygen plasma and were subsequently treated with HA nanostructured coatings (n = 10), SiO2 (n = 10) and TiO2 (n = 10), respectively and a PLGA control membrane (n = 10). The assays were performed using the human osteoblast line MG-63 acquired from the Center for Scientific Instrumentation (CIC) from the University of Granada. The cell adhesion and the viability of the osteoblasts were analyzed by means of light-field microphotographs of each condition with the inverted microscope Axio Observer A1 (Carl Zeiss). For the determination of the mitochondrial energy balance, the MitoProbe™ JC-1 Assay Kit was employed. For the determination of cell growth and the morphology of adherent osteoblasts, two techniques were employed: staining with phalloidin-TRITC and staining with DAPI. (3) Results: The modified membranes that show osteoblasts with a morphology more similar to the control osteoblasts follow the order: PLGA/PO2/HA > PLGA/PO2/SiO2 > PLGA/PO2/TiO2 > PLGA (p < 0.05). When analysing the cell viability, a higher percentage of viable cells bound to the membranes was observed as follows: PLGA/PO2/SiO2 > PLGA/PO2/HA > PLGA/PO2/TiO2 > PLGA (p < 0.05), with a better energy balance of the cells adhered to the membranes PLGA/PO2/HA and PLGA/PO2/SiO2. (4) Conclusion: The membrane in which osteoblasts show characteristics more similar to the control osteoblasts is the PLGA/PO2/HA, followed by the PLGA/PO2/SiO2.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1105217230
Document Type :
Electronic Resource