Search results for "Cytocompatibility"

showing 5 items of 5 documents

Co-deposition and characterization of hydroxyapatite-chitosan and hydroxyapatite-polyvinylacetate coatings on 304 SS for biomedical devices

2019

During the last decades, biomaterials have been deeply studied to fabricate and improve coatings for biomedical devices. Metallic materials, especially in the orthopedic field, represent the most common materials used for different type of devices thanks to their good mechanical properties. Nevertheless, low/medium resistance to corrosion and low osteointegration ability characterizes these materials. To overcome these problems, the use of biocoatings on metals substrate is largely diffused. In fact, biocoatings have a key role to confer biocompatibility features, to inhibit corrosion and thus improve the lifetime of implanted devices. In this work, the attention was focused on Hydroxyapati…

CorrosionChitosanGalvanic depositionOrthopedic implantSettore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/23 - Chimica Fisica Applicata304 stainless steelSettore BIO/10 - BiochimicaPolyvinyl acetateSettore ING-IND/34 - Bioingegneria IndustrialeCytocompatibilityHydroxyapatite
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Macroporous Scaffolds Based on Chitosan and Bioactive Molecules†

2007

Chitosan-based macroporous scaffolds for tissue engineering applications are developed by cryogelation in aqueous media. The cryogels obtained are modified using a new RGD-containing peptide developed in this laboratory. A RGD-containing peptide is chemically attached to the surface of the cryogels to improve cell adhesion to the 3D-structure chitosan-based scaffolds. The synthesis, physico-chemical, and biological evaluations of the system are described, and the optimization of the formulations is carried out by varying the reaction parameters. Fibroblasts and endothelial cells are used in cell cultures to determine cell behavior and the cytocompatibility of the macroporous cryogels. Cell …

ScaffoldPolymers and Plastics0206 medical engineeringCellBioengineeringPeptideNanotechnology02 engineering and technologyActin cytoskeleton organizationlaw.inventionScaffoldBiomaterialsChitosanchemistry.chemical_compoundTissue engineeringConfocal microscopylawMaterials ChemistrymedicineCell adhesionchemistry.chemical_classificationChitosanRGDChemistryCytocompatibility021001 nanoscience & nanotechnology020601 biomedical engineeringmedicine.anatomical_structureChemical engineering0210 nano-technologyCryogelsJournal of Bioactive and Compatible Polymers
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Hydroxyapatite/Chitosan/Collagen coatings through galvanic coupling

In this work, the attention was focused on Hydroxyapatite/ Chitosan/Collagen composite as biocoatings for application in orthopaedic devices. Hydroxyapatite was selected for its osteoconductivity due to its chemical structure similar to bones. Collagen has the same function since 90-95% of bone matrix is constituted of collagen fibers. Furthermore, chitosan are largely used yet in medical field (e.g. antibacterial agent or drug deliver) and in this work were used to create a synergic interaction with hydroxyapatite and collagen to increase the strength and bioactivity of coating. Coatings were fabricated by galvanic deposition process that has different advantages an it does not require ext…

Settore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/23 - Chimica Fisica ApplicataSettore BIO/10 - BiochimicaSettore ING-IND/34 - Bioingegneria IndustrialeGalvanic deposition hydroxyapatite 304 stainless steel orthopedic implants chitosan collagen corrosion cytocompatibility
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Comparative Surface Morphology, Chemical Composition, and Cytocompatibility of Bio-C Repair, Biodentine, and ProRoot MTA on hDPCs

2020

Biocompatibility is an essential property for any vital pulp material that may interact with the dental pulp tissues. Accordingly, this study aimed to compare the chemical composition and ultrastructural morphology of Biodentine (Septodont, Saint Maur-des-Fosses, France), ProRoot MTA (Dentsply Tulsa Dental Specialties, Johnson City, TN, USA), and Bio-C Repair (Angelus, Londrina, PR, Brazil), as well as their biological effects on human dental pulp cells. Chemical element characterization of the materials was undertaken using scanning electron microscopy and energy dispersive X-ray analysis (SEM-EDX). The cytotoxicity was assessed by analyzing the cell viability (MTT assay), cell morphology …

cytocompatibilityBiocompatibilityvital pulp materialschemistry.chemical_element02 engineering and technologyCalciumCell morphologylcsh:TechnologyArticleFlow cytometry03 medical and health sciences0302 clinical medicinestomatognathic systemdental pulp cellsmedicineGeneral Materials ScienceMTT assayViability assaycalcium silicate materialsCytotoxicitylcsh:Microscopylcsh:QC120-168.85calcium silicate materialmedicine.diagnostic_testlcsh:QH201-278.5Chemistrylcsh:Tdental pulp cell030206 dentistry021001 nanoscience & nanotechnologystomatognathic diseasesendodonticlcsh:TA1-2040Pulp (tooth)lcsh:Descriptive and experimental mechanicslcsh:Electrical engineering. Electronics. Nuclear engineering0210 nano-technologylcsh:Engineering (General). Civil engineering (General)lcsh:TK1-9971Nuclear chemistryMaterials
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The Cytocompatibility of Silver Diamine Fluoride on Mesenchymal Stromal Cells from Human Exfoliated Deciduous Teeth : An In Vitro Study

2022

Silver diamine fluoride (SDF) has been used for many years for the treatment of caries, and minimally invasive dentistry concepts have made it popular again. The fact that its application does not require the administration of anesthesia makes its use in children more desirable. The aim of this study was to determine the cytotoxicity of two new commercial SDF products: Riva Star (SDI Dental Limited) and e-SDF (Kids-e-Dental) on mesenchymal stromal cells from human exfoliated deciduous teeth (SHEDs). SHEDs were exposed to SDF products at different concentrations (0.1%, 0.01% and 0.005%). Then different assays were performed to evaluate their cytocompatibility on SHEDs: IC50, MTT, cell migrat…

silver diamine fluoride; cytotoxicity; SHEDs; cytocompatibilityGeneral Materials ScienceDents Malalties
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