Search results for "Catanionic vesicles"

showing 5 items of 5 documents

Insights into catanionic vesicles thermal transition by NMR spectroscopy

2012

Oppositely charged ionic surfactants can self-assemble into hollow structures, called catanionic vesicles, where the anionic-cationic surfactant pair assumes a double-tailed zwitterionic attitude. In the present work, multilamellar- to-unilamellar thermal transition of a mixed aqueous system of sodium dodecyl sulphate (SDS) and cetyl trimethyl ammonium bromide (CTAB), with a slight excess of the anionic one, has been investigated by 1H, 2H, 14N NMR spectra and 23Na transverse relaxation measurements. It has been inferred that an increase of the temperature enhances the SDS counterion dissociation, which can be considered as one of the driving forces of the mentioned transition. Moreover, in…

chemistry.chemical_classificationAmmonium bromideAqueous solutionVesicleIonic bondingNuclear magnetic resonance spectroscopyDissociation (chemistry)NMR spectra databasechemistry.chemical_compoundchemistrySettore CHIM/09 - Farmaceutico Tecnologico ApplicativoPhysical chemistrylipids (amino acids peptides and proteins)Catanionic Vesicles NMR PGSTE Thermal TransitionCounterion
researchProduct

Soft Nanoonions: A Dynamic Overview onto Catanionic Vesicles Temperature-Driven Transition.

2020

Catanionic vesicles are emerging interesting structures for bioapplications. They self-generate by a pairing of oppositely charged ionic surfactants that assemble into hollow structures. Specifically, the anionic-cationic surfactant pair assumes a double-tailed zwitterionic behavior. In this work, the multilamellar-to-unilamellar thermal transition of several mixed aqueous systems, with a slight excess of the anionic one, were investigated. Interestingly, it was found that the anionic counterion underwent a dissociation as a consequence of a temperature increase, leading to the mentioned thermal transition. The present work proposed the spectroscopic techniques, specifically multinuclear NM…

Ionic bonding02 engineering and technology01 natural sciencesDissociation (chemistry)nanoreservoirslcsh:ChemistryDiffusionPulmonary surfactantNanoreservoirlcsh:QH301-705.5SpectroscopyMicelleschemistry.chemical_classificationMicroscopyAqueous solutionMicroscopy ConfocalVesiclediffusionTemperatureSodium Dodecyl SulfateGeneral Medicine021001 nanoscience & nanotechnologyComputer Science ApplicationsChemical physicsDrug deliveryCetrimonium Compoundsmicroscopy0210 nano-technologyAnionsMaterials science010402 general chemistryCatanionic vesicles; Diffusion; Microscopy; Nanoreservoirs; NMRCatalysisPhase TransitionArticleInorganic ChemistrySurface-Active AgentsCationsPhysical and Theoretical ChemistryMolecular BiologyNuclear Magnetic Resonance BiomolecularNanotubes CarbonOrganic ChemistryCatanionic vesicleNMR0104 chemical scienceslcsh:Biology (General)lcsh:QD1-999chemistrySettore CHIM/09 - Farmaceutico Tecnologico ApplicativoPairingcatanionic vesiclesCounterionInternational journal of molecular sciences
researchProduct

Thermo-responsive hydrogels from cellulose-based polyelectrolytes and catanionic vesicles for biomedical application.

2016

In this study, negatively charged catanionic vesicles/hydrophobically modified hydroxyethylcellulose polymers thermo-responsive hydrogels have been fabricated. Vesicular aggregates were found to act as multifunctional junctions for networking of modified-cellulose water solutions. The contributions of the electrostatic and hydrophobic interactions were evaluated by changing either vesicles composition or the polymer hydrophobic substitution. Thermal-induced size and lamellarity of hydrogel-enclosed vesicles were detected, with further polygonal shape changes induced by cellulose-based polymer addition. The thermal transition was also found to tune hydrogel mechanical behaviour. The network …

AnionsProton Magnetic Resonance SpectroscopyBiomedical EngineeringBiomedical TechnologyCeramics and CompositeBiomaterialsDiffusioncatanionic vesicleTheophyllineCationsCellulosecatanionic vesicles; cellulose; diffusion; hydrogel; NMR; rheology; Ceramics and Composites; Biomaterials; Biomedical Engineering; 2506ViscositydiffusionTemperatureHydrogelsBiomaterialPolyelectrolytescelluloseNMRElasticityDrug LiberationSettore CHIM/09 - Farmaceutico Tecnologico Applicativocatanionic vesiclesCeramics and Compositesrheologyhydrogel2506RheologyJournal of biomedical materials research. Part A
researchProduct

Modulating carbohydrate-based hydrogels as viscoelastic lubricant substitute for articular cartilages

2017

Viscosupplementation is a therapeutic approach for osteoarthritis treatment, where the synovial fluid, the natural lubricant of the joints, is replaced by viscoelastic solutions with rheological properties comparable or better than the starting material. This study presents the development of an innovative platform for viscosupplementation, based on the optimization of polysaccharide-based colloidal hydrogel, aiming to reduce on-site enzyme degradation and enhance the possibility of hyaluronic acid substitution with alternative biomaterials. Catanionic vesicles are proposed as physical crosslinker that can guarantee the formation of a 'soft', tunable network, offering a dual-therapeutic app…

Cartilage ArticularMaterials scienceNanotechnology02 engineering and technology010402 general chemistry01 natural sciencesBiochemistryViscoelasticityCryo-SEMViscosupplementationchemistry.chemical_compoundRheologyBiomimetic MaterialsPolysaccharidesStructural BiologySynovial FluidHyaluronic acidLubricantMolecular BiologyCatanionic vesicles; Colloidal hydrogel; Cryo-SEM; Modified cellulose; Viscosupplementation; Structural Biology; Biochemistry; Molecular Biologychemistry.chemical_classificationCatanionic vesiclesViscosityHydrogelsGeneral MedicinePolymerColloidal hydrogelModified cellulose021001 nanoscience & nanotechnologyCatanionic vesicleElasticity0104 chemical scienceschemistrySettore CHIM/09 - Farmaceutico Tecnologico ApplicativoSelf-healing hydrogelsViscosupplementationViscoelastic Solutions0210 nano-technology
researchProduct

Stabilization of unilamellar catanionic vesicles induced by β-cyclodextrins: A strategy for a tunable drug delivery depot.

2018

The limited stability of catanionic vesicles has discouraged their wide use for encapsulation and controlled release of active substances. Their structure can easily break down to form lamellar phases, micelles or rearrange into multilamellar vesicles, as a consequence of small changes in their composition. However, despite the limited stability, catanionic vesicles possess an attractive architecture, which is able to efficiently encapsulate both hydrophobic and hydrophilic molecules. Therefore, improving the stability of the vesicles, as well as the control on unilamellar structures, are prerequisites for their wider application range. This study focuses on the impact of β-cyclodextrins fo…

3003DepotPharmaceutical Science02 engineering and technology010402 general chemistry01 natural sciencesMicelleDiffusionSurface-Active AgentsDrug Delivery SystemsCyclodextrinLamellar structureUnilamellar Liposomeschemistry.chemical_classificationCatanionic vesiclesCyclodextrinChemistryCetrimoniumVesiclebeta-Cyclodextrinstechnology industry and agricultureTemperatureSodium Dodecyl SulfateCatanionic vesicles; Cyclodextrin; Diffusion; NMR; Self-assembly; 3003Self-assembly021001 nanoscience & nanotechnologyCatanionic vesicleControlled releaseNMR0104 chemical sciencesChemical engineeringSettore CHIM/09 - Farmaceutico Tecnologico ApplicativoDrug deliveryCetrimonium Compoundslipids (amino acids peptides and proteins)Self-assembly0210 nano-technologyInternational journal of pharmaceutics
researchProduct