Search results for "Aluminum Compounds"

showing 5 items of 25 documents

Retrograde filling material in periapical surgery: a systematic review

2021

Background Periapical surgery focuses on the treatment of teeth with persistent periapical lesions when orthograde root canal treatment fails. Although MTA® is the gold standard material for retrograde filling, Biodentine® - a tricalcium silicate-based cement - has been proposed in order to resolve several of its limitations. A systematic review has been carried out to compare the physicochemical properties of Biodentine® versus MTA® as root-end filling material in periapical surgery. Material and Methods An electronic search was conducted by two independent examiners during March 2020 in the Cochrane, PubMed-MEDLINE and Scopus databases. In addition, a manual search was made in specialized…

Root canalMEDLINEDental CementsDentistryReviewPemetrexedEndodonticsRoot Canal Filling MaterialsAnimalsHumansrisk factorsMedicineEndodònciaAluminum CompoundsperiodontitisGeneral DentistryUNESCO:CIENCIAS MÉDICASbusiness.industrySilicatesGold standardOxidesCalcium Compoundsoral cancerbiological factorsRoot Canal TherapyDrug Combinationsmedicine.anatomical_structureOtorhinolaryngologyhead and neck cancerSurgeryOral SurgerybusinessPeriapical surgeryTricalcium silicateMedicina Oral Patología Oral y Cirugia Bucal
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Cytotoxicity and bioactivity of various pulpotomy materials on stem cells from human exfoliated primary teeth.

2017

Aims To investigate the cytotoxicity and bioactivity of several pulpotomy materials: Biodentine (Septodont, Saint-Maur-des-Fosses, France) MTA (Angelus, Londrina, PR, Brazil), Theracal LC (Bisco Inc., Schamburg, IL, USA) and IRM (Dentsply DeTrey GmbH, Konstanz, Germany), after contact with stem cells isolated from human exfoliated primary teeth (SHEDs). Methodology SHEDs were cultured in the presence of the eluates of various pulpotomy materials for 24, 48 and 72 h. Cell viability was determined by mitochondrial dehydrogenase enzymatic (MTT) assay. Apoptosis and changes in cell phenotype were evaluated by flow cytometry. Also, an in vitro scratch wound-healing assay was used to determine th…

Time FactorsCell SurvivalPulpotomyDentistryApoptosis02 engineering and technologyMatrix (biology)In Vitro TechniquesCell morphologyFlow cytometry03 medical and health sciences0302 clinical medicineCell MovementMaterials TestingmedicineHumansMethylmethacrylatesViability assayTooth DeciduousZinc Oxide-Eugenol CementCytotoxicityAluminum CompoundsGeneral DentistryCells Culturedmedicine.diagnostic_testChemistrybusiness.industrySilicatesStem CellsOxides030206 dentistryCalcium Compounds021001 nanoscience & nanotechnologyFlow CytometryMolecular biologyStainingDrug CombinationsPhenotypeApoptosisPulpotomyMicroscopy Electron Scanning0210 nano-technologybusinessPulp Capping and Pulpectomy AgentsInternational endodontic journal
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New reagent for the detection of sesquiterpene lactones by thin-layer chromatography.

1984

chemistry.chemical_classificationChromatographyChemistryPlant ExtractsOrganic ChemistryGeneral MedicineSesquiterpeneBiochemistryThin-layer chromatographyAnalytical Chemistrychemistry.chemical_compoundLactonesChloridesReagentOrganic chemistryAluminum ChlorideIndicators and ReagentsSpectrophotometry UltravioletChromatography Thin LayerAluminum CompoundsSesquiterpenesLactoneAluminumJournal of chromatography
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Successful treatment of paraquat poisoning: activated charcoal per os and "continuous hemoperfusion".

1982

AbstractIngestion of paraquat results in an extremely dangerous poisoning. The first aim is to clear the gastrointestinal tract by inducing emesis and performing gastric/gut lavage; as much activated charcoal as possible should be administered per os and as quickly as possible. The best measure to eliminate paraquat from blood and tissue is hemoperfusion with coated activated charcoal; it has to be performed in the sense of “continuous hemoperfusion” about 8 h/d over a period of 2–3 weeks. These measures give a chance to lower the lethality of paraquat poisoning.

inorganic chemicalsMaleParaquatTime FactorsAdolescentHealth Toxicology and Mutagenesismedicine.medical_treatmentMagnesium CompoundsToxicologychemistry.chemical_compoundParaquatMedicineAnimalsHumansAluminum CompoundsKaolinTherapeutic IrrigationGastrointestinal tractbusiness.industrySilicatesRats Inbred StrainsHemoperfusionPARAQUAT POISONINGRatsHemoperfusionchemistryActivated charcoalAnesthesiaCharcoalBentoniteAluminum SilicatesFemaleAdsorptionbusinessJournal of toxicology. Clinical toxicology
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Copolymerization of ethylene with higher 1-olefins over vanadium catalyst supported on Al(i-Bu)3 modified magnesium carrier

2008

Badano proces kopolimeryzacji etylenu z wyższymi 1-olefinami (C6-C12) wobec katalizatora wanadowego (VOCl3) immobilizowanego na nośniku magnezowym MgCl2 (THF) 2 modyfikowanym z zastosowaniem Al(i-Bu) 3. W charakterze aktywatora nośnikowego prekatalizatora wanadowego zastosowano Et2AlCl. Stwierdzono, że aktywność takiego układu katalitycznego jest porównywalna z aktywnością katalizatora z prekursorem wanadowym osadzonym na niemodyfikowanym nośniku magnezowym. Zaobserwowano także, że wprowadzenie komonomeru do środowiska reakcji powoduje niewielkie zmniejszenie wydajności procesu w porównaniu z homopolimeryzacją etylenu, postępującą w miarę wzrostu stężenia komonomeru w środowisku reakcji. Do…

modyfikacjacopolymerization1-olefinakatalizator wanadowy1-olefinethylenevanadium catalystkopolimeryzacjaetylenzwiązki glinoorganicznenośnik magnezowymagnesium carrierorganoaluminum compoundsPolimery
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