Results 131 to 140 of about 906 (153)
Toxicology and Applied Pharmacology, 1985 In 2-week feeding studies, a series of trialkyltin chlorides and triphenyltin chloride were fed to male weanling rats at different dietary concentrations to evaluate their toxic effects, especially on the brains and the lymphoid organs, thymus and spleen. The lower trialkyltin homologs, trimethyltin chloride (TMTC) and triethyltin chloride (TETC), were
N.J. Snoeij
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The Preparation of Some Trialkyltin-lithium Compounds
Journal of the American Chemical Society, 1953 Henry Gilman, Sanders D. Rosenberg
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Helvetica Chimica Acta, 1992 AbstractUnder the influence of an electric field, trialkyltin compounds of the type R3SnX behave as electrically neutral carriers for anions in poly(vinyl chloride) liquid membranes. The interaction of tinorganic compounds with oxoanions was studied in organic phase by means of119Sn‐NMR‐monitored titrations.
Wilhelm Simon
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Coordination compounds of bis (trialkyltin) oxides
Inorganic and Nuclear Chemistry Letters, 1973 Ram Chand Paul +4 more
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The hemolytic activity of some trialkyltin and triphenyltin compounds
Toxicology and Applied Pharmacology, 1974 Abstract Triphenyltin chloride caused the rapid hemolysis of dog, hog, rabbit, or rat blood; however, human blood was resistant to hemolysis by triphenyltin chloride. Trialkytin compounds with alkyl groups having 3–6 carbon atoms were hemolytic to both human and rat blood. Tri-n-butyltin derivatives in which the fourth group or atom bonded to tin was
Keith H. Byington +2 more
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ChemInform Abstract: COORDINATION COMPOUNDS OF BIS(TRIALKYLTIN)OXIDES
Chemischer Informationsdienst, 1973 AbstractSn(IV)‐, Ti(IV)‐ und Sb(V)‐chloride reagieren mit Bis‐[tri‐n‐butyl‐ bzw. ‐propyl‐ zinn]‐oxiden im Verhältnis 1:1 oder 1 22 zu den Titelverbindungen (I).
Ram Chand Paul +4 more
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Behavioral toxicity of trialkyltin compounds: a review.
Neurotoxicology, 1984 Triethyltin (TET) and trimethyltin (TMT) are neurotoxic organotin compounds which produce different patterns of toxicity in adult animals. Exposure to TET produces behavioral toxicity (decreased motor activity, grip strength, operant response rate and startle response amplitude) which reflects impaired neuromotor function. These deficits are consistent
Lawrence W. Reiter, Patricia H. Ruppert
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THE TOXIC EFFECTS OF TRIALKYLTIN COMPOUNDS ON NERVE AND MUSCLE
Journal of Neurochemistry, 1977 Abstract—The toxicity of trimethyltin chloride and triethyltin sulphate on animal tissues was assessed by their effects on isolated phrenic nerve‐diaphragm preparations. Studies by electron microscopy show that the inhibitory effects of these compounds on the muscular contractility of this tissue are associated with (a) the disruption of mitochondria ...
L. P. Tan, Mah Lee Ng
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Studies on the flavor aversions induced by trialkyltin compounds.
Neurobehavioral toxicology and teratology, 1982 These experiments were undertaken to determine the suitability of a flavor-aversion-conditioning paradigm for detecting the effects of trimethyltin and triethyltin. Both organotins produced flavor aversions whose magnitude depended jointly on the dosage administered and the number of flavor-organotin pairings.
MacPhail Rc
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