Search results for "Chemical compatibility"

showing 6 items of 6 documents

Inhalation solutions — Which ones may be mixed? Physico-chemical compatibility of drug solutions in nebulizers — Update 2013

2014

AbstractMany patients suffering from chronic respiratory diseases rely on inhalation therapy with nebulizers. About 25% of patients who need to inhale several different drugs per day save time by mixing them for simultaneous inhalation. This review presents a comprehensive overview of the available data concerning physico-chemical compatibility of commonly mixed nebulizer solutions and suspensions. Information is based on our in vitro studies and a thorough literature search.Results indicate that many nebulizer solutions/suspensions are mixable without provoking incompatibilities. However, certain excipients contained in some of the tested drug products could be identified as a reason for i…

Lung DiseasesPulmonary and Respiratory MedicineDrugmedicine.medical_specialtymedia_common.quotation_subjectReviewCompatibilityAdministration InhalationmedicineMixtureHumansPediatrics Perinatology and Child HealthClinical efficacyIntensive care medicineAerosolmedia_commonInhalationbusiness.industryNebulizers and VaporizersDornase alfaAnti-Bacterial AgentsBronchodilator AgentsChemical compatibilityDrug CombinationsNebulizerNebulizer solution/suspensionAnesthesiaChronic DiseasePediatrics Perinatology and Child Healthbusinessmedicine.drugJournal of Cystic Fibrosis
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Characterisation of scheelite LaW0.16Nb0.84O4.08 ion conductor by combined synchrotron techniques: Structure, W oxidation state and interdiffusion

2021

Abstract Scheelite-type materials such as LaNbO4 are increasingly attracting attention as a possible alternative to the most common fluorite and perovskite structure as ion conductors. However, they are much less used and investigated. The introduction of tungsten in lanthanum orthoniobate leads to conduction properties that are compatible with oxygen ion conductivity. In this paper, we studied the effect of the introduction of tungsten in the LaNbO4 structure. High resolution X-ray diffraction showed that in LaNb1-xWxO4+x/2 with x = 0.16 the monoclinic distortion is largely suppressed and the tetragonal phase is predominant at room temperature. By XANES/EXAFS we proved that tungsten is in …

Materials scienceScheeliteAnalytical chemistrychemistry.chemical_elementChemical compatibility02 engineering and technologyTungsten010402 general chemistry01 natural sciencesIonchemistry.chemical_compoundTetragonal crystal systemElectrolyteMaterials ChemistryLSMlectrolyteValence (chemistry)Extended X-ray absorption fine structureMechanical EngineeringMetals and Alloys021001 nanoscience & nanotechnologyXANESXANES0104 chemical scienceschemistryMechanics of MaterialsScheelite0210 nano-technologySolid-oxide fuel cellsMonoclinic crystal systemJournal of Alloys and Compounds
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Electrode–Electrolyte Compatibility in Solid-Oxide Fuel Cells: Investigation of the LSM–LNC Interface with X-ray Microspectroscopy

2015

Ca:LaNbO4 (LNC) constitutes the last real breakthrough in high-temperature proton conductors, with better chemical and mechanical stability with respect to cerate and zirconate perovskites. However, the low amount of bivalent dopant that can be hosted in the LaNbO4 matrix poses a limit to the proton concentration in the electrolyte. Using synchrotron X-ray microspectroscopy, we investigated the compatibility of annealed LNC/LSM electrolyte/cathode bilayers for proton-conducting SOFCs. The element maps are complemented by microEXAFS and microXANES, giving information on the fate of different cations after diffusion. The X-ray microspectroscopy approach described here is applied for the first…

PROTON CONDUCTORScathodeMaterials scienceGeneral Chemical EngineeringX-ray microspectroscopyXRFOxideelectrolyteElectrolytefuel cellchemistry.chemical_compoundMaterials ChemistrySOFCX-rayCompatibility (geochemistry)General Chemistryelectrodelanthanum manganitelanthanum strontium manganiteEXAFSCHEMICAL COMPATIBILITYchemistryChemical engineeringElectrodemicroXRFFuel cellsLNClanthanum niobateChemistry of Materials
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Stability of mycophenolate mofetil in polypropylene 5% dextrose infusion bags and chemical compatibility associated with the use of the Equashield ® …

2019

Stability studies are necessary in healthcare settings as they facilitate fast, cost-effective and efficient work related to batch manufacturing and availability of supplies. We studied the stability of 1-10 mg/mL mycophenolate mofetil (MMF) in polypropylene 5% dextrose infusion bags prepared from Cellcept® and with a generic brand name (Micofenolato de Mofetilo Accord) at different storage temperatures. To ensure chemical compatibility during preparation, we also tested MMF sorption to the Equashield® closed-system drug transfer device used in this step. For this, a validated stability-indicating high-performance liquid chromatography method was developed for the quantification and identif…

PharmacologyPolypropyleneDrug transferChromatography010401 analytical chemistryClinical BiochemistrySorptionGeneral MedicineMycophenolateBatch manufacturing030226 pharmacology & pharmacy01 natural sciencesBiochemistryWork related0104 chemical sciencesAnalytical ChemistryChemical compatibility03 medical and health scienceschemistry.chemical_compound0302 clinical medicinechemistryDrug Discovery5 dextroseMolecular BiologyBiomedical Chromatography
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Betasympathomimetika und andere Arzneimittel zur Feuchtinhalationstherapie

2011

PharmacologySympathomimeticsChemistryRadiochemistryPharmaceutical SciencePharmacology (medical)Aerosol inhalationBeta (finance)Chemical compatibilityPharmazie in unserer Zeit
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Solid-state compatibility of Ca:LaNbO4 with perovskite cathodes: Evidences from X-ray microspectroscopy

2022

The solid-state compatibility between calcium-doped lanthanum niobate and three perovskite cathode materials was investigated using two X-ray microbeam techniques, micro X-ray fluorescence and micro X-ray absorption spectroscopy. The cathode powders (lanthanum strontium ferrite, either cobalt or copper-doped, and lanthanum strontium cobaltite) in contact with the dense electrolyte pellet were annealed at 1150 degrees C for 12-144 h to simulate the effect of thermal stresses due to fabrication and long-term operation. As a result, several interdiffusion phenomena were then observed on the bilayer cross-sections: in particular, the chemical state and coordination environment of calcium, iron,…

cathodeMaterials scienceAbsorption spectroscopyGeneral Chemical EngineeringNiobiumchemistry.chemical_elementPositive ionelectrolyteinterfaceschemistry.chemical_compoundchemical compatibilityLanthanumscheelitesolid oxide fuel cellElectrochemistryLanthanumx-ray microspectroscopySOFClanthanum strontium cobaltiteperovskitePerovskite (structure)Compatibility (geochemistry)CobaltiteChemical statechemistryChemical engineeringNiobium compoundStrontiumSettore CHIM/03 - Chimica Generale E InorganicaLaNbO4X ray absorption spectroscopylanthanum strontium ferriteCalciumCobaltlanthanum niobate
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