Miscellaneous Biochemical Effects

Hazard Evaluation and Limiting Concentrations (see also Part II, Chapter 8) [Pg.667]

Andrewes P, Cullen WR and Polishchuk E (2000a) Antimony biomethylation by scopulariopsis brevicaulis Characterization of intermediates and the methyl donors. Chemosphere 41 1717-1725. [Pg.667]

ATSDR (1992) (Agency for Toxic Substances and Disease Registry) Toxicological profile for antimony. Atlanta, U S Department of Health and Human Services. [Pg.667]

Babikova YuF, Kolesnik W, Roslyakov NP, Gorbunov AV, Revich BA and Sotskov YuP [Pg.667]

Bencze K (1994) Antimony. In Seiler G, Sigel A and Sigel H ed. Handbook on Metals in Clinical and Analytical Chemistry, pp. 227-236. Marcel Decker Inc, New York. [Pg.667]

General anaesthetics have been in use for more than a centuiy, but unfortunately so far no exact mechanism of action has been put forward. Of coiuse, a few theories, namely lipid, physical, biochemical, miscellaneous, Meyer-Overton, minimum alveolar concentration (MAC), stereochemical effects and ion-channel and protein receptor theories have been advocated from time to time in support of the mode of action of the general anaesthetics. These will be discussed briefly in this context. [Pg.118]

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