Results 251 to 260 of about 166,653 (305)
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The American Journal of Medicine, 1974
Abstract In 1960 ethylene glycol poisoning accounted for 40 to 60 deaths per year in the United States, and the ingestion of this compound remains a major cause of drug poisoning. The clinical manifestations have been well recorded and consist of central nervous system dysfunction with severe metabolic acidosis, cardiopulmonary failure and acute renal
M F, Parry, R, Wallach
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Abstract In 1960 ethylene glycol poisoning accounted for 40 to 60 deaths per year in the United States, and the ingestion of this compound remains a major cause of drug poisoning. The clinical manifestations have been well recorded and consist of central nervous system dysfunction with severe metabolic acidosis, cardiopulmonary failure and acute renal
M F, Parry, R, Wallach
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Inelastic Neutron Scattering spectrum of Ethylene glycol, C2H6O2, measured on the TOSCA instrument.
Barroso-Bujans, F.
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Forensic Science International, 2005
Ethylene glycol (EG) can be found in many agents, such as antifreeze. Ingestion of EG may cause serious poisoning. Adults are typically exposed when EG is ingested as a cheap substitute for ethanol or in suicide-attempts. Children may be exposed by accidental ingestion caused by decantation of EG to unlabeled bottles.
Gregersen, Markil Ebbe Gregers +1 more
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Ethylene glycol (EG) can be found in many agents, such as antifreeze. Ingestion of EG may cause serious poisoning. Adults are typically exposed when EG is ingested as a cheap substitute for ethanol or in suicide-attempts. Children may be exposed by accidental ingestion caused by decantation of EG to unlabeled bottles.
Gregersen, Markil Ebbe Gregers +1 more
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American Journal of Clinical Pathology, 1966
Renal tubular oxalosis is a striking and regular phenomenon following the ingestion of ethylene glycol by a variety of mammals, including man. Doubt exists, however, regarding the relation of renal oxalate crystal formation to the mechanism of ethylene glycol toxicity. It has been proposed that the toxicity of ethylene glycol may be related either to a
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Renal tubular oxalosis is a striking and regular phenomenon following the ingestion of ethylene glycol by a variety of mammals, including man. Doubt exists, however, regarding the relation of renal oxalate crystal formation to the mechanism of ethylene glycol toxicity. It has been proposed that the toxicity of ethylene glycol may be related either to a
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2000
Abstract Ethylene glycol, 1,2-ethanediol, is widely used as an antifreeze agent in automobiles and aircraft; its primary adverse effect is upon the kidney. Almost all human nephrotoxicity has occurred following deliberate ingestion of ethylene glycol as an ethanol substitute; there is little risk from industrial or common-use exposure.
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Abstract Ethylene glycol, 1,2-ethanediol, is widely used as an antifreeze agent in automobiles and aircraft; its primary adverse effect is upon the kidney. Almost all human nephrotoxicity has occurred following deliberate ingestion of ethylene glycol as an ethanol substitute; there is little risk from industrial or common-use exposure.
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Journal of Toxicology: Clinical Toxicology, 1986
M, Linnanvuo-Laitinen, K, Huttunen
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M, Linnanvuo-Laitinen, K, Huttunen
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