Search results for "CHEMICAL WARFARE AGENTS"

showing 4 items of 14 documents

Acetylcholinesterase-Capped Mesoporous Silica Nanoparticles That Open in the Presence of Diisopropylfluorophosphate (a Sarin or Soman Simulant)

2016

Mesoporous silica nanoparticles loaded with rhodamine B and capped with acetylcholinesterase are able to be selectively opened and deliver their cargo in the presence of nerve agent simulant diisopropyl fluorophosphate (DFP).

NANOCAPSULESRESPONSIVE CONTROLLED-RELEASESarinGATED MATERIALSNanoparticle02 engineering and technologyCHEMICAL WARFARE AGENTS010402 general chemistry01 natural sciencesBiochemistryNanocapsuleschemistry.chemical_compoundQUIMICA ORGANICADESIGNSomanmedicineRhodamine BOrganic chemistryDRUG-DELIVERYPhysical and Theoretical ChemistryNerve agentNANOCONTAINERSChemistryQUIMICA INORGANICAOrganic ChemistryDNAMesoporous silica021001 nanoscience & nanotechnologyGUEST MOLECULES0104 chemical sciencesDiisopropyl fluorophosphateDCNP0210 nano-technologymedicine.drugNuclear chemistryOrganic Letters
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Acute Morphological and Toxicological Effects in a Human Bronchial Coculture Model after Sulfur Mustard Exposure

2009

International audience; Sulfur mustard (SM) is a strong alkylating agent. Inhalation of SM causes acute lung injury accompanied by severe disruption of the airway barrier. In our study, we tested the acute effects after mustard exposure in an in vitro coculture bronchial model of the proximal barrier. To achieve this, we seeded normal human bronchial epithelial explant-outgrowth cells (HBEC) together with lung fibroblasts as a bilayer on filter plates and exposed the bronchial model after 31 days of differentiation to various concentrations of SM (30, 100, 300, and 500mM). The HBEC formed confluent layers, expressing functional tight junctions as measured by transepithelial electrical resis…

Pathologymedicine.medical_specialtysulfur mustard[SDV]Life Sciences [q-bio]ApoptosisBronchiEnzyme-Linked Immunosorbent Assay[SDV.BC]Life Sciences [q-bio]/Cellular BiologyBiologyLung injuryToxicologyCell LinelungProinflammatory cytokinechemistry.chemical_compoundIn vivoMustard GasmedicineHumansChemical Warfare AgentsInterleukin 8Tight junctionInterleukinSulfur mustardprimary bronchial cellsMolecular biologyCoculture TechniqueschemistryApoptosis[SDV.TOX]Life Sciences [q-bio]/ToxicologyMicroscopy Electron ScanningbarriercocultureToxicological Sciences
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Stable adducts of nerve agents sarin, soman and cyclosarin with TRIS, TES and related buffer compounds—Characterization by LC-ESI-MS/MS and NMR and i…

2009

Abstract Buffering compounds like TRIS are frequently used in chemical, biochemical and biomedical applications to control pH in solution. One of the prerequisites of a buffer compound, in addition to sufficient buffering capacity and pH stability over time, is its non-reactivity with other constituents of the solution. This is especially important in the field of analytical chemistry where analytes are to be determined quantitatively. Investigating the enzymatic hydrolysis of G-type nerve agents sarin, soman and cyclosarin in buffered solution we have identified stable buffer adducts of TRIS, TES and other buffer compounds with the nerve agents. We identified the molecular structure of the…

TrisSpectrometry Mass Electrospray IonizationMagnetic Resonance SpectroscopyBicineSomanClinical BiochemistryAnalytical chemistryCyclosarinBiochemistryAnalytical Chemistrychemistry.chemical_compoundOrganophosphorus CompoundsTandem Mass SpectrometryChemical Warfare AgentsTromethamineTE bufferTBE bufferTricineAqueous solutionChromatographyChemistryCell BiologyGeneral MedicineHydrogen-Ion ConcentrationSarinMOPSModels ChemicalChromatography LiquidJournal of Chromatography B
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Chromogenic detection of nerve agent mimics

2008

The current rise in international concern over criminal terrorist attacks via chemical warfare (CW) agents has resulted in an increasing interest in the detection of these lethal chemicals. Among CW species, nerve agents are extremely dangerous and their high toxicity and ease of production underscore the need to detect these deadly chemicals via quick and reliable procedures. A number of detection systems have been developed, most of them based on enzymatic and physical methodologies. However, these usually show limitations such as low selectivity, lack of portability and a certain complexity in their use. An alternative to these classical methods that has been gaining interest in recent y…

musculoskeletal diseasesTertiary amineUNESCO::QUÍMICANerve agent mimicsElectron donorBiosensing TechniquesUNESCO::ASTRONOMÍA Y ASTROFÍSICA:QUÍMICA [UNESCO]Reductive aminationCatalysischemistry.chemical_compoundOrganophosphorus CompoundsMaterials ChemistryMoietyChemical Warfare Agentsskin and connective tissue diseasesChromogenic protocol ; Nerve agent mimics ; Internationalchemistry.chemical_classificationChromogenic protocolMolecular StructureChromogenicChemistryfungiMetals and AlloysGeneral ChemistryElectron acceptorCombinatorial chemistrySurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsDiethyl chlorophosphatebody regionsKineticsstomatognathic diseasesChromogenic CompoundsInternationalCeramics and CompositesColorimetryHypsochromic shiftAzo Compounds:ASTRONOMÍA Y ASTROFÍSICA [UNESCO]
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