Toxicology
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Comparative Study
Methodologic considerations in the interpretation of postmortem carboxyhemoglobin concentrations.
The interpretation of postmortem carboxyhemoglobin (COHb) concentrations can have major implications even when COHb is not the direct cause of death. Much litigation may hinge on the length of time an individual was alive during the fire. Therefore, the reliability of an analytical method to measure COHb, ranging from low to sub-lethal levels, is critical to the proper interpretation of results. ⋯ At GC COHb levels ranging from 5 to 40% and Hb > or = 4g/dl, the average and median ratios were 1.6 and 1.0 respectively. These ratios were correspondingly 2.1 and 1.9 when Hb < 4 g/dl. These data clearly indicate COHb can be influenced by the analytical methods used.
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Immunologic mechanisms contributing to diisocyanate-induced occupational asthma (OA) are poorly defined. There is a relatively low incidence of diisocyanate-specific IgE antibody responses. The frequent occurrence of delayed onset asthmatic responses in workers with diisocyanate asthma suggests a role for cellular immune mechanisms. ⋯ OA subjects showed increased CD8+ cells by immunofluorescence (mean CD4+: CD8+ = 1.2 +/- 0.2). The results suggest that diisocyanate antigen enhancement of HRF and MCP-1 production are stimulated by hapten-specific T cell reactions. Since a weak association has been found between IgE antibody synthesis and induction of diisocyanate OA, the role of T cell cytokines and chemokines in the pathogenesis of OA requires further investigation.
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The effects of isoflurane, 1-chloro-2,2,2-trifluoroethyl difluoromethyl ether, on the oxidative metabolism of halothane to produce trifluoroacetic acid (TFA) and on the reductive metabolism of halothane to produce chlorodifluoroethylene (CDE) and chlorotrifluoroethane (CTE) in liver microsomes of guinea pig were examined. Isoflurane enhanced the production of CDE and CTE and inhibited the production of TFA. ⋯ We conclude that isoflurane interacts with cytochrome P450 to prevent the formation of the halothane-cytochrome P450 complex, causing inhibition of the oxidative dehalogenation. This interaction of isoflurane enhances the reduction of cytochrome P450 and the formation of a reductive intermediate-cytochrome P450 complex under anaerobic conditions causing reductive dehalogenation of halothane.
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Assessing the neurotoxic potential of organophosphate and carbamate pesticides should be greatly facilitated by the knowledge that the mechanism of action of these insecticides is presumed to be the inhibition of cholinesterase, the enzyme which controls the levels of neurotransmitter, acetycholine. Although the inhibition of cholinesterase activity is the recognized mechanism of action, many questions remain regarding the use of cholinesterase inhibition data as a critical effect for establishing risk of cholinesterase-inhibiting pesticides. ⋯ Studies in our laboratory indicate that blood cholinesterase inhibition in both acute and subchronic dosing regimens correlates with inhibition in other tissues, if measurements are taken at the appropriate times. Moreover, there is evidence in the literature and from our laboratory that cholinesterase inhibition correlates with the emergence and severity of clinical signs of poisoning by cholinesterase-inhibiting pesticides.