Search results for "supported liquid membrane"

showing 10 items of 25 documents

A useful procedure for detection of polyamines in biological samples as a potential diagnostic tool in cancer diagnosis

2017

Abstract Background Polyamines present in human body are frequently considered as markers of occurrence of cancer. Therefore, the availability of simple and efficient method for determination of their level in body liquids and tissues is of some interest. Methods Supported liquid membrane technology coupled with HPLC seems to be an appropriate technique to follow the level of polyamines in human blood and urine. Thus, the membranes of two different geometries: flat sheet and hollow fiber were studied as a mean for separation and enrichment of studied polyamines from urine and tissue samples in order to prepare samples to be analyzed by HPLC. Conclusions Developed extraction systems offer an…

0301 basic medicineFlat sheetChromatographyHuman bloodsperminecadaverinecancer markersChemistryExtraction (chemistry)General Medicinelcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogensHigh-performance liquid chromatographylcsh:RC254-282supported liquid membranes03 medical and health sciences030104 developmental biology0302 clinical medicineMembraneBiochemistry030220 oncology & carcinogenesisspermidineputrescineApplied Cancer Research
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Immuno-SLM—a combined sample handling and analytical technique

2004

Immuno-supported liquid membrane (immuno-SLM) extraction is a new technique that makes use of antibody (Ab)-antigen interactions as the "extraction force" to drive the mass transfer in a selective way. In immuno-SLM, anti-analyte (Ag) Abs are introduced into the acceptor phase of the SLM unit to trap the Ag that passes from the flowing donor through the SLM into the stagnant acceptor. The amount of immuno-extracted analyte (AbAg) is quantified by connecting the immuno-SLM unit on-line with a non-competitive heterogeneous fluorescence flow immunoassay (FFIA) that makes use of a fluorescein-labeled analyte tracer that titrates the residual excess of Ab present in the acceptor. A restricted ac…

AnalytefluoresceinCalibration curveImmunologyAnalytical chemistryFresh WaterAntibodiesAntigen-Antibody ReactionsBeveragesMatrix (chemical analysis)Tap waterImmunology and AllergyImmunoassayDetection limitOrange juiceiImmuno extractionChromatographyrestricted accessHerbicidesChemistryElutiontap waterExtraction (chemistry)Membranes Artificialriver watersupported liquid membrane extractionorange juiceAtrazineWater Pollutants ChemicalJournal of Immunological Methods
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Facilitated SLM extraction of peptides with D2EHPA as a carrier

2004

Abstract The extraction of short peptides through a supported liquid membrane containing di-2-(ethylhexyl)phosphoric acid (D2EHPA) as a carrier was investigated. The extraction was carried out from the aqueous donor phase with pH 3 to amore acidic acceptor phase. The proton gradient between the donor and the acceptor phase was the main driving force of the mass transfer in this system. The influence of various parameters such as diluent of the carrier, pH of the donor and acceptor phase, peptide structure and concentration on the extraction efficiency was presented.

Aqueous solutionChromatographyChemistryMechanical EngineeringGeneral Chemical EngineeringInorganic chemistryExtraction (chemistry)General ChemistryD2EHPAAcceptorDiluentchemistry.chemical_compoundMembranePhase (matter)peptidesextractionGeneral Materials Sciencesupported liquid membraneElectrochemical gradientPhosphoric acidWater Science and TechnologyDesalination
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Peptides analysis in blood plasma using on-line system of supported liquid membrane and high-performance liquid chromatography

2005

The potential of using supported liquid membrane (SLM) technique, combined with reversed-phase high-performance liquid chromatography (RP-HPLC) has been investigated for the determination of peptides in human blood plasma. The peptides studied were (DL)Leu(DL)Phe, MetLeuPhe, GlyLeuTyr and ValGluProlleProTyr. The carrier (Aliquat 336) was incorporated in membrane phase in order to facilitate the transport of investigated peptides. After extraction, the analyte-enriched acceptor phase was directly injected into an HPLC system for analysis. With SLM, high selectivity and efficiency were achieved for extraction of peptides in aqueous solutions. Lower extraction efficiency was obtained in plasma…

Chromatographyaliquat 336Extraction (chemistry)Analytical chemistryUltrafiltrationReversed-phase chromatographyAliquat 336BiochemistryHigh-performance liquid chromatographyAnalytical ChemistryStandard curvechemistry.chemical_compoundMembranechemistrypeptidesEnvironmental ChemistrySample preparationsupported liquid membraneHPLCSpectroscopyblood plasmaAnalytica Chimica Acta
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Supported liquid membrane extraction of aromatic aminophosphonates

2001

Abstract A fast and efficient supported liquid membrane (SLM) extraction system for the series of substituted aromatic aminophosphonates was elaborated. The mass transfer of solute was examined in terms of operator (pH and ionic strength of water phase, composition of membrane phase and the concentration of analyte) dependent parameters. Additionally, the influence of the aminophosphonates structure on the extraction efficiency was examined. From the results it can be concluded that the most effective conditions of membrane process are 10% (w/w) carrier concentration (Aliquat 336) in the liquid membrane, high pH of donor phase (pH=11) and moderate salt concentration (0.4 M NaCl) in the acce…

ChromatographyaminophosphonatesChemistryExtraction (chemistry)Inorganic chemistryAliquat 336BiochemistryAcceptorAnalytical ChemistryMembrane technologychemistry.chemical_compoundMembraneIonic strengthPhase (matter)Mass transferextractionEnvironmental Chemistrysupported liquid membraneSpectroscopyAnalytica Chimica Acta
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Supported liquid membrane extraction with single hollow fiber for the analysis of fluoroquinolones from environmental surface water samples

2010

Abstract In this work, the simple analytical method for the determination of four fluoroquinolone antibiotics: ciprofloxacin, enrofloxacin, norfloxacin and danofloxacin, in environmental surface water samples is described. Sample pretreatment step was performed by the application of a technique based on supported liquid membrane extraction with the configuration of single hollow fiber (HF-SLM). The HPLC system with diode array detection was used for final analysis of studied analytes. Various parameters affecting the extraction efficiency during HF-SLM enrichment, such as type of membrane diluent, pH of donor (sample) and acceptor phases, as well as an enrichment time and salt content of sa…

DanofloxacinAnalytical chemistrySodium ChlorideBiochemistryHigh-performance liquid chromatographyDiluentSensitivity and SpecificityAnalytical ChemistryRiversmedicinehollow fiberenvironmental samplesSample preparationfluoroquinolonesChromatography High Pressure LiquidDetection limitChromatographysample preparationChemistryOrganic ChemistryExtraction (chemistry)Reproducibility of ResultsMembranes ArtificialGeneral MedicineHydrogen-Ion ConcentrationAnti-Bacterial Agentssupported liquid membrane extractionWater treatmentHydrochloric AcidEnrichment factorWater Pollutants Chemicalmedicine.drugJournal of Chromatography A
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Transport of dipeptides and phosphono dipeptides through an immobilized liquid membrane. Stereoselectivity of the process

1993

Abstract Dipeptide and phosphono dipeptide hydrochlorides permeated well through a 1-decanol membrane supported in a porous polyethylene hollow fiber matrix. This transfer is easily accomplished either by passive or by carrier-facilitated (with Kryptofixes 222 or 5 present in the membrane phase) transport. The transport is stereoselective with l-l dipeptides being transported faster than their l-d isomers.

DipeptideFacilitated diffusionstereoselective transportFiltration and SeparationPolyethyleneBiochemistryCombinatorial chemistrysupported liquid membraneschemistry.chemical_compoundMembraneliquid membraneschemistryMass transferPhase (matter)Fiber matrixOrganic chemistryGeneral Materials ScienceStereoselectivityfacilitated transportPhysical and Theoretical ChemistryJournal of Membrane Science
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Extraction of glyphosate by a supported liquid membrane technique.

2000

The possible application of the supported liquid membrane (SLM) technique for the extraction of glyphosate is presented. For the extraction of this compound the SLM system has been applied with utilisation of Aliquat 336 as a cationic carrier incorporated into the membrane phase. The extraction efficiency of glyphosate [N-(phosphonomethyl)glycine] is dependent on the donor phase pH, carrier concentration in the organic phase and NaCl concentration in the acceptor phase. The optimal extraction conditions are: donor phase pH>11, acceptor phase of 2 M NaCl solution and the organic phase composed of 20% (w/w) Aliquot 336 solution in di-hexyl ether. Counter-coupled transport of chloride anions f…

GlycineEtherAliquat 336BiochemistryChlorideAnalytical Chemistrysupported liquid membraneschemistry.chemical_compoundextraction methodsglyphosateMass transferPhase (matter)medicineChromatographyMembranesClinical Laboratory TechniquesHerbicidesOrganic ChemistryExtraction (chemistry)Osmolar ConcentrationElectrophoresis CapillaryGeneral MedicinepesticidesHydrogen-Ion ConcentrationAcceptorQuaternary Ammonium CompoundsMembranechemistrymedicine.drugJournal of chromatography. A
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The application of the supported liquid membrane and molecularly imprinted polymers as solid acceptor phase for selective extraction of biochanin A f…

2018

An efficient sample clean-up and preconcentration procedure for phytoestrogens analysis in urine has been developed. It was based on a combination of solid phase extraction with hollow-fiber supported liquid membrane and molecularly imprinted beads (MIPs-HF-SLM-SPE). The molecularly imprinted polymers (MIPs) were synthesized by precipitation polymerization technique with biochanin A (BCA) as a template, giving narrowly dispersed microspheres with a regular shape. As the functional monomer, (dimethylamino)ethyl methacrylate (-DEM) turned out to be better than methacrylic acid (MAA) to get the best-imprinted effects. The MIPs used as sorbents in the MIPs-HF-SLM-SPE extraction process exhibite…

PolymersUrinalysismolecularly imprinted polymerMethacrylateSolid-Phase extractionBiochemistryPolymerizationAnalytical ChemistryMolecular Imprintingchemistry.chemical_compoundLimit of DetectionHumanssupported liquid membraneSolid phase extractionchemistry.chemical_classificationChromatographySolid Phase ExtractionOrganic ChemistryExtraction (chemistry)Molecularly imprinted polymerMembranes ArtificialGeneral MedicinePolymerGenisteinurineMembraneMethacrylic acidchemistryPrecipitation polymerizationphytoestrogenJournal of Chromatography A
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Enrichment of amino acids by supported liquid membrane extraction using Aliquat 336 as a carrier

1998

Abstract The possible application of Aliquat 336 (trioctylmethyl ammonium chloride) as a carrier for liquid membrane extraction of amino acids was investigated. The extraction is performed from an aqueous donor phase with pH > 11 to an acceptor phase containing a salt solution through a supported liquid membrane with Aliquat 336 as a carrier in the membrane to facilitate amino acid transport. Counter-coupled transport of chloride anions from the acceptor phase to the donor phase is the driving force of the mass transfer in this system. The extraction efficiency depends on the donor phase pH, the carrier concentration in the liquid membrane, the composition of the acceptor phase and the hydr…

amino acidsChromatographyAqueous solutionBiochemistry (medical)Clinical BiochemistryExtraction (chemistry)Aliquat 336Aliquat 336BiochemistryAcceptorAnalytical Chemistrychemistry.chemical_compoundMembranechemistryLiquid–liquid extractionPhase (matter)ElectrochemistryextractionAmmonium chloridesupported liquid membraneSpectroscopyAnalytical Letters
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