Repository hosted by TU Delft Library

Home · Contact · About · Disclaimer ·
 

Search results also available in MS Excel format.

Showing 1 to 2 of 2 found. | Sort by date

1 Retrospective detection of exposure to nerve agents: Analysis of phosphofluoridates originating from fluoride-induced rectivation of phospylated BuChE
article 2004    
Author: Schans, M.J. van der · Polhuijs, M. · Dijk, C. van · Degenhardt, C.E.A.M. · Pleijsier, K. · Langenberg, J.P. · Benschop, H.P.
Keywords: Biology · Biomarker · Biomonitoring · Butyryl cholinesterase · Fluoride ions · Lexposure · Nerve agents · Organophosphates · Reactivation · Retrospective detection · Cholinesterase · Cholinesterase inhibitor · Cyclosarin · Fluoride · Nerve gas · Organophosphate · Paraoxon · Parathion · Phosphorus derivative · Sarin · Soman · Tabun · Unclassified drug · Biological monitoring · Biological warfare · Chemical structure · Concentration (parameters) · Environmental exposure · Enzyme activation · Enzyme active site · Enzyme inhibition · Gas chromatography · Half life time · Human · Nonhuman · pH · Priority journal · Retrospective study · Rhesus monkey · Animals · Butyrylcholinesterase · Chemical Warfare Agents · Cholinesterase Inhibitors · Cholinesterase Reactivators · Gas chromatography · Female · Fluorides · Half-Life · Humans · Injections, Intravenous · Macaca mulatta · Male · Organophosphorus compounds · Paraoxon · Reference standards · Time factors · Macaca mulatta · Cholinesterase, 9001-08-5 · Cyclosarin, 329-99-7 · Fluoride, 16984-48-8 · Paraoxon, 311-45-5 · Parathion, 3270-86-8, 56-38-2, 597-88-6 · Sarin, 107-44-8 · Soman, 96-64-0 · Tabun, 77-81-6 · Butyrylcholinesterase, EC 3.1.1.- · Chemical warfare agents · Cholinesterase inhibitors · Cholinesterase reactivators · Fluorides · Organophosphorus compounds
[Abstract]

2 Therapeutic efficacy of the adenosine A1 receptor agonist N6-cyclopentyladenosine (CPA) against organophosphate intoxication
article 2002    
Author: Bueters, T.J.H. · Groen, B. · Danhof, M. · IJzerman, A.P. · Helden, H.P.M. van
Keywords: Biology · Acetylcholine release · Adenosine A1 receptor · N6-Cyclopentyladenosine · Organophosphate · Adenosine A1 receptor agonist · Adenosine receptor stimulating agent · Cyclohexyladenosine · Methylphosphonothioic acid s (2 diisopropylaminoethyl) o ethyl ester · Adenosine receptor · Cholinesterase · Drug derivative · N(6) cyclopentyladenosine · Organophosphate · Phosphorothioic acid derivative · Bioaccumulation · Cholinergic system · Concentration response · Controlled study · Corpus striatum · Crug efficacy · Enzyme activity · Hippocampus · Intoxication · Male · Microdialysis · Nonhuman · Rat · Reduction · Animal · Drug potentiation · Enzymology · Metabolism · Secretion · Wistar rat · Animals · Cholinesterase Inhibitors · Cholinesterases · Corpus Striatum · Male · Microdialysis · Organothiophosphorus Compounds · Parathion · Phosphoric Acid Esters · Rats · Rats, Wistar · Receptors, Purinergic P1 · Sarin · Acetylcholinesterase, 9000-81-1 · Cyclohexyladenosine, 36396-99-3 · Methylphosphonothioic acid s (2 diisopropylaminoethyl) o ethyl ester, 50782-69-9 · Parathion, 3270-86-8, 56-38-2, 597-88-6 · Sarin, 107-44-8; tabun, 77-81-6 · Acetylcholine, 51-84-3 · Adenosine, 58-61-7; · Cholinesterase Inhibitors · Cholinesterases, EC 3.1.1.8 · N(6)-cyclopentyladenosine, 41552-82-3 · Organothiophosphorus Compounds · Parathion, 56-38- · Phosphoric Acid Esters · Receptors, Purinergic P1 · Sarin, 107-44-8 · Tabun, 77-81-6 · VX, 50782-69-9
[Abstract]

Search results also available in MS Excel format.

Showing 1 to 2 of 2 found. | Sort by date