Journal ArticleDOI
Acetone potentiation of acute acetonitrile toxicity in rats
James J. Freeman,Eileen P. Hayes +1 more
TLDR
The results suggest that the effects of acetone on acetonitrile toxicity are due to a biphasic effect on the metabolism of aconetitrile to cyanide, that is, an initial inhibition followed by a stimulation of this metabolism upon acetone elimination.Abstract:
The purpose of these studies was to investigate the nature and mechanism of a toxicologic interaction between acetonitrile and acetone. Results of oral dose-response studies utilizing a 1:1 (w/w) mixture of acetonitrile and acetone, or varying doses of acetonitrile administered together with a constant dose of acetone, indicated that acetone potentiated acute acetonitrile toxicity three- to fourfold in rats. The onset of severe toxicity (manifested by tremors and convulsions) was delayed in the groups dosed with both solvents compared to the groups that received acetonitrile or acetone alone. Blood cyanide (a metabolite of acetonitrile) and serum acetonitrile and acetone concentrations were measured after oral administration of 25% aqueous solutions of acetonitrile, acetone, or acetonitrile plus acetone. Concentrations of cyanide in the blood of rats given acetonitrile plus acetone remained near baseline, in contrast to the high concentrations found in rats dosed with acetonitrile alone. At 34-36 h, high blood cyanide concentrations were found in rats dosed with both of the solvents. This delayed onset of elevation of blood cyanide coincided with the occurrence of clinical signs and with the disappearance of serum acetone. In further pharmacokinetic studies, blood cyanide concentrations were measured after similar dosage regimens of acetone and acetonitrile. Peak cyanide concentrations were found to be significantly greater in rats dosed with both solvents than in rats given only acetonitrile. Administration of either sodium thiosulfate or a second dose of acetone prevented the toxicity associated with exposure to both solvents. These results suggest that the effects of acetone on acetonitrile toxicity are due to a biphasic effect on the metabolism of acetonitrile to cyanide, that is, an initial inhibition followed by a stimulation of this metabolism upon acetone elimination.read more
Citations
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Journal ArticleDOI
An Overview on Common Organic Solvents and Their Toxicity
Dirgha Raj Joshi,Nisha Adhikari +1 more
TL;DR: A review of common organic solvents and their potential toxicities is presented in this article, which will alert researchers to think twice and always think for their health as well as for the environment via safe and green practice.
Journal ArticleDOI
Toxicokinetics of Organic Solvents: A Review of Modifying Factors
Agneta Löf,Gunnar Johanson +1 more
TL;DR: Changes in the toxicokinetics of organic solvents alters the relation between external exposure and target dose and thus may explain some of the observed individual variability in susceptibility to toxic effects.
Journal ArticleDOI
The anticonvulsant activity of acetone, the major ketone body in the ketogenic diet, is not dependent on its metabolites acetol, 1,2-propanediol, methylglyoxal, or pyruvic acid.
Maciej Gasior,Amy French,Michelle T. Joy,Rebecca S. Tang,Adam L. Hartman,Michael A. Rogawski +5 more
TL;DR: In this article, the anticonvulsant mechanism of acetone is unknown, but it is metabolized to several bioactive substances that could play a role in the seizure protection of the ketogenic diet.
Journal ArticleDOI
Anticonvulsant Activity of Acetone, the Major Ketone Body in the Ketogenic Diet, Is Not Dependent on Its Metabolites Acetol, 1,2-Propanediol, Methylglyoxal or Pyruvic Acid
Maciej Gasior,Amy French,Michelle T. Joy,Jessica Yankura,Adam L. Hartman,Michael A. Rogawski +5 more
TL;DR: Acetone, one of the principal ketone bodies elevated during treatment with the ketogenic diet, exhibits anticonvulsant properties that may contribute to the seizure protection conferred by the diet.
Journal ArticleDOI
Comparative developmental toxicities of aliphatic nitriles: in vivo and in vitro observations.
TL;DR: The results provide further evidence that maternal production of cyanide may contribute to the developmental toxicity of saturated and unsaturated nitriles and suggest that distinct metabolites derived from microsomal metabolism of unsaturatedNitriles may also play a role.
References
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A simplified method of evaluating dose-effect experiments.
J. T. Litchfield,F Wilcoxon +1 more
TL;DR: The method provides means for the rapid test of parallelism of two curves and easy computation of relative potency with its confidence limits and its accuracy is commensurate with the nature of dose-per cent effect data.
Journal Article
A simplified method of evaluating dose-effect experiments
J. T. Litchfield,F Wilcoxon +1 more
TL;DR: In this article, a rapid graphic method for approximating the median effective dose and the slope of dose-per-cent effect curves is presented, and confidence limits of both of these parameters for 19/20 probability are given by the method.
Journal Article
The determination of cyanide in biologic fluids by microdiffusion analysis.
Feldstein M,N C Klendshoj +1 more
Journal ArticleDOI
Acetone enhancement of microsomal aniline para-hydroxylase activity
TL;DR: Evidence is presented that acetone produces its enhancement of aniline hydroxylation by a mechanism different from that of ethyl isocyanide.
Journal ArticleDOI
An exploration of joint toxic action: twenty-seven industrial chemicals intubated in rats in all possible pairs.
TL;DR: The results indicate that the harmonic mean formula for additive joint toxicity satisfactorily predicted the toxicity of a large proportion of the pairs and the soundest hypothesis for the joint action of untested pairs is that of additive toxic action.