0000000000025380

AUTHOR

María Ruiz-rico

showing 5 related works from this author

Comparative cytotoxic study of silica materials functionalised with essential oil components in HepG2 cells

2020

[EN] This work evaluated the cytotoxic effect of different EOCs-functionalised silica particle types. The in vitro toxicity of eugenol and vanillin-immobilised SAS, MCM-41 microparticles and MCM-41 nanoparticles was evaluated on HepG2 cells, and compared to free EOCs and pristine materials. The results revealed that free essential oil components and bare silica had a mild cytotoxic effect on HepG2 cells. However, the comparative study showed that free eugenol and vanillin had a milder cytotoxic effect than the equivalent concentrations of immobilised components on the different silica particles, while differences in cell viability between the bare and functionalised particles relied on the …

HepG2TECNOLOGIA DE ALIMENTOSCell SurvivalCytotoxicityNanoparticleToxicologyMCM-41law.invention03 medical and health scienceschemistry.chemical_compoundInhibitory Concentration 500404 agricultural biotechnologyMCM-41Microscopy Electron TransmissionlawEugenolOils VolatileCytotoxic T cellHumansCytotoxicityEssential oil030304 developmental biology0303 health sciencesDose-Response Relationship DrugVanillinCationic polymerizationSilica04 agricultural and veterinary sciencesGeneral MedicineHep G2 CellsSilicon Dioxide040401 food scienceEugenolchemistryBenzaldehydesVanillinNanoparticlesFood ScienceNuclear chemistry
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Protective effect of mesoporous silica particles on encapsulated folates.

2016

Mesoporous silica particles (MSPs) are considered suitable supports to design gated materials for the encapsulation of bioactive molecules. Folates are essential micronutrients which are sensitive to external agents that provoke nutritional deficiencies. Folates encapsulation in MSPs to prevent degradation and to allow their controlled delivery is a promising strategy. Nevertheless, no information exists about the protective effect of MSPs encapsulation to prevent their degradation. In this work, 5-formyltetrahydrofolate (FO) and folic acid (FA) were entrapped in MSPs functionalized with polyamines, which acted as pH-dependent molecular gates. The stability of free and entrapped vitamins af…

INGENIERIA DE LA CONSTRUCCIONFolic acidTECNOLOGIA DE ALIMENTOSLightSilicon dioxideBioactive moleculesPharmaceutical Science02 engineering and technology010402 general chemistry01 natural sciencesMesoporous silica particleschemistry.chemical_compoundFolic AcidMicroscopy Electron TransmissionControlled deliveryControlled releasechemistry.chemical_classificationChromatographyBiomoleculeQUIMICA INORGANICATemperatureGeneral Medicine5-FormyltetrahydrofolateMesoporous silicaHydrogen-Ion Concentration021001 nanoscience & nanotechnologySilicon DioxideControlled release0104 chemical sciencesBioavailabilitychemistryFolic acidChemical engineeringMicroscopy Electron ScanningEncapsulation0210 nano-technologyStabilityPorosityPowder DiffractionBiotechnologyEuropean journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V
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Degradation of silica particles functionalised with essential oil components under simulated physiological conditions

2020

[EN] In this work, the biodurability of three silica particle types (synthetic amourphous silica, MCM-41 microparticles, MCM-41 nanoparticles) functionalised with three different essential oil components (carvacrol, eugenol, vanillin) was studied under conditions that represented the human gastrointestinal tract and lysosomal fluid. The effect of particle type, surface immobilised component and mass quantity on the physico-chemical properties of particles and silicon dissolution was determined. Exposure to biological fluids did not bring about changes in the zeta potential values or particle size distribution of the bare or functionalised materials, but the in vitro digestion process partia…

SiliconEnvironmental EngineeringSiliconTECNOLOGIA DE ALIMENTOSHealth Toxicology and Mutagenesis0211 other engineering and technologieschemistry.chemical_elementNanoparticle02 engineering and technology010501 environmental sciencesMCM-4101 natural scienceschemistry.chemical_compoundMCM-41Zeta potentialOils VolatileEnvironmental ChemistryHumansSolubilityParticle SizeWaste Management and DisposalDissolution0105 earth and related environmental sciences021110 strategic defence & security studiesVanillinArtificial lysosomal fluidIn vitro digestionSilicaSilicon DioxidePollutionFunctionalisationchemistryChemical engineeringSolubilityParticle-size distributionNanoparticles
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Stability of different mesoporous silica particles during an in vitro digestion

2016

Mesoporous silica materials have the ability to entrap drugs, nutrients and functional biomolecules and can be able to act as smart delivery systems capable to control and target the release of their cargo in a particular part of the gastrointestinal tract when administrated orally. However, the aptness of these encapsulation supports in in vivo oral controlled release relies on their chemical stability through the digestive tube. In this context, we have evaluated the stability of four different mesoporous silica particles, frequently used as encapsulating supports, during an in vitro digestion process comprising buccal, stomach and intestinal phases. Results showed that after 4 h of diges…

INGENIERIA DE LA CONSTRUCCIONTECNOLOGIA DE ALIMENTOSNanoparticle02 engineering and technology010402 general chemistryElectron Microscopy Service of the UPV01 natural sciencesMesoporous silica particlesQUIMICA ORGANICAQUIMICA ANALITICAOrganic chemistryMoietyGeneral Materials ScienceAmine-functionalizationchemistry.chemical_classificationChemistryBiomoleculeQUIMICA INORGANICAIn vitro digestionGeneral ChemistryBuccal administrationMesoporous silica021001 nanoscience & nanotechnologyCondensed Matter PhysicsControlled release0104 chemical sciencesChemical engineeringMechanics of MaterialsSurface modificationChemical stability0210 nano-technologyStabilityMicroporous and Mesoporous Materials
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Encapsulation of folic acid in different silica porous supports: A comparative study.

2016

Although folic acid is essential to numerous bodily functions, recent research indicates that a massive exposition to the vitamin could be a double-edged sword. In this study, the capacity of different caped mesoporous silica particles (i.e. Hollow Silica Shells, MCM-41, SBA-15 and UVM-7) to dose FA during its passage through the gastrointestinal tract has been evaluated. Results confirmed that the four capped materials were capable to hinder the delivery of FA at low pH (i.e. stomach) as well as able to deliver great amounts of the vitamin at neutral pH (i.e. intestine). Nevertheless, the encapsulation efficiency and the deliver kinetics differed among supports. While supports with large p…

OptimizationVitaminPorous silica supportsSmart deliveryINGENIERIA DE LA CONSTRUCCIONFolic acidTECNOLOGIA DE ALIMENTOSSilicon dioxideKinetics02 engineering and technology010402 general chemistryElectron Microscopy Service of the UPV01 natural sciencesAnalytical Chemistrychemistry.chemical_compoundQUIMICA ORGANICAFolic AcidNeutral phPorosityNutritionChemistryQUIMICA INORGANICAGeneral MedicineMesoporous silica021001 nanoscience & nanotechnologySilicon Dioxide0104 chemical sciencesLarge poreNutrition AssessmentBiochemistryChemical engineeringFolic acid0210 nano-technologyPorosityFood ScienceFood chemistry
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