Search results for "Oxalate"

An enzymatic method proposed for the determination of oxalate in urine is adapted for the estimation of soluble oxalate content in beans, chickpeas and lentils. Oxalates were extracted in water by refluxing for 2 h. The method is based on the oxidation of oxalate by the oxidase and the determination of the resulting hydrogen peroxide, which in presence of peroxidase, 3-methyl-2 benzotiazinolone and 3-dimethylamino benzoic, gives an indamine compound with an absorption maximum at 590 nm. The linearity (from 0.015 to 0.6 mM) of the method is adequate to the analysis of oxalate contents in pulses, and the inter-day precision of the method expressed as relative standard deviation was good (3.01…

Absorption (pharmacology)chemistry.chemical_classificationOxalatesChromatographyHot TemperaturebiologyChemistryFood HandlingInorganic chemistryRelative standard deviationFabaceaeSoluble oxalateOxalateFood handlingchemistry.chemical_compoundEnzymebiology.proteinHydrogen peroxideMicrowavesNutritive ValueFood SciencePeroxidaseInternational journal of food sciences and nutrition

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ChemInform Abstract: First Reactions of 2,2′-Bisindolyls with Electrophilic Azo Compounds and Diethyl Mesoxalate.

2010

Conformations and some electronic properties of the 2,2′-bisindolyls 6 were calculated for the prediction of probable Diels-Alder reactivity, in analogy to previous work on 2-vinylindoles. First reactions with dienophiles revealed that compounds 6 did not participate in [4 + 2]cycloadditions but rather underwent simple electrophilic substitutions at the enamine function with, above all, some heterodienophiles. Erste Reaktionen von 2,2′-Bisindolylen mit elektrophilen Azoverbindungen und Diethylmesoxalat Zur Vorhersage moglicher Diels-Alder-Reaktionen an 2,2′-Bisindolylen 6 werden Berechnungen zur Konformation und uber elektronische Eigenschaften durchgefuhrt. Die erstmals durchgefuhrten Reak…

Addition reactionDiethyl mesoxalateChemistryStereochemistryElectrophileTriazole derivativesGeneral MedicineChemInform

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Biochemical composition of salivary stones in relation to stone-and patient-related factors

2018

Background Salivary stones are calcified structures most often found in the main duct of the submandibular or parotid salivary gland. They contain of a core surrounded by laminated layers of organic and inorganic material. Material and Methods Submandibular and parotid sialoliths (n=155) were collected at the department of Oral and Maxillofacial surgery of a general hospital between February 1982 and September 2012. The weight of the sialoliths was determined and the consistency was subjectively classified. Subsequently, the biochemical composition of the stones was determined by wet chemical methods or FT-IR spectrometry. Age and gender of the patients were retrieved from their medical rec…

AdultMaleAdolescent030232 urology & nephrologyDentistryOxalate03 medical and health scienceschemistry.chemical_compoundYoung Adult0302 clinical medicineSex Factorsstomatognathic systemBiochemical compositionMedicineHumansGeneral hospitalChildGeneral DentistryAgedRelated factorsSalivary Gland CalculiOral Medicine and PathologySalivary glandbusiness.industryResearchAge Factors030206 dentistryMiddle Aged:CIENCIAS MÉDICAS [UNESCO]medicine.anatomical_structureOtorhinolaryngologychemistryStruviteCarbonate apatiteChild PreschoolUNESCO::CIENCIAS MÉDICASOral and maxillofacial surgerySurgeryFemalebusiness

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The importance of citrates in treatment and prophylaxis of calcium oxalate urinary stones

2017

About 10% of the people is the subject of an episode of kidney stones during their lifetime, about 70% of these people undergoes relapses. About 80% of the urinary stones contains calcium, of wich 80% is formed of calcium oxalate, in pure form or associated with calcium phosphate. Therefore we can saythat in most cases (about 65%) the urinary stones are composedof calcium oxalate. Use of supplements of potassium citrate and magnesium citrate can help in the prevention of kidney stones of calcium oxalate, but mostly they can be used in the days before a shockwaves lithotripsy treatment to make the stones more fragile to the effect of the shock waves. A case of successful treatment with magne…

AdultMalemedicine.medical_specialtyUreteral CalculiUrologymedicine.medical_treatmentUrinary systemPotassiumUrologyCalcium oxalatechemistry.chemical_elementLithotripsyCalciumlcsh:RC870-923Citric Acidchemistry.chemical_compoundPotassium CitrateOrganometallic CompoundsmedicineHumansCalcium OxalateMagnesiumbusiness.industryCalcium oxalate stones prophylaxislcsh:Diseases of the genitourinary system. Urologymedicine.diseaseSurgerychemistryKidney stonesbusinessCitric acidArchivio Italiano di Urologia e Andrologia

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Microporous alumina membranes electrochemically grown

2003

Abstract The electrochemical fabrication of alumina membranes by anodizing of aluminium in phosphoric acid and oxalic acid solutions, in the temperature interval from −1 to 16 °C, was investigated in order to study the influence of different parameters (initial treatment of aluminium surface, nature and composition of electrolyte, temperature) on the final characteristics of the membranes. Porous layers were grown using a linear potential scan at 0.2 V s −1 up to 160 V in H 3 PO 4 solution and 70 V in oxalic acid solution. The efficiency of porous layer formation was calculated by using Faraday's law and weight measurements. Pore size distribution and porosity of membranes prepared in 0.4 M…

AnodizingGeneral Chemical EngineeringOxalic acidInorganic chemistrychemistry.chemical_elementElectrolyteOxalatechemistry.chemical_compoundAluminium anodizing Anodic porous oxide Ceramic membrane Membrane preparation Porous aluminaCeramic membraneMembranechemistryAluminiumElectrochemistryPhosphoric acidElectrochimica Acta

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Anhydrous Amorphous Calcium Oxalate Nanoparticles from Ionic Liquids: Stable Crystallization Intermediates in the Formation of Whewellite

2015

The mechanisms by which amorphous intermediates transform into crystalline materials are not well understood. To test the viability and the limits of the classical crystallization, new model systems for crystallization are needed. With a view to elucidating the formation of an amorphous precursor and its subsequent crystallization, the crystallization of calcium oxalate, a biomineral widely occurring in plants, is investigated. Amorphous calcium oxalate (ACO) precipitated from an aqueous solution is described as a hydrated metastable phase, as often observed during low-temperature inorganic synthesis and biomineralization. In the presence of water, ACO rapidly transforms into hydrated whewe…

Aqueous solutionChemistryWhewelliteOrganic ChemistryCalcium oxalateGeneral Chemistryengineering.materialCatalysislaw.inventionAmorphous solidchemistry.chemical_compoundChemical engineeringlawengineeringAnhydrousWater of crystallizationOrganic chemistryCrystallizationDissolutionChemistry - A European Journal

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Study of the interaction between [Cu(bipy)]2+ and oxalate in dimethyl sulfoxide. Crystal structure of [Cu2(bipy)2(H2O)2ox]SO4·[Cu(bipy)ox]

1991

Abstract A study of complex formation between [Cu(bipy)]2+ and ox2− (bipy and ox2− being 2,2′-bipyridyl and the dianion of oxalic acid), has been carried out by potentiometry in dimethyl sulfoxide solution. The constants of the equilibria and are log β110 = 11.165(1) and log β210 = 13.185(5) at 25 °C and 0.1 mol dm−3 tetra-n- butylammonium perchlorate. The high values of these constants are consistent with the symmetrical bidentate and bis-bidentate modes of oxalate in [Cu(bipy)ox] and [Cu2(bipy)2ox]2+ units, respectively, as shown by X-ray diffraction studies. Well-formed single crystals of [Cu2(bipy)2(H2O)2ox]SO4· [Cu(bipy)ox] were grown from aqueous solutions and characterized by X-ray d…

Aqueous solutionDenticityChemistryInorganic chemistrychemistry.chemical_elementCrystal structureCopperOxalateInorganic ChemistryPerchloratechemistry.chemical_compoundCrystallographyMaterials ChemistryMoleculePhysical and Theoretical ChemistryMonoclinic crystal systemInorganica Chimica Acta

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