| Literature DB >> 8317750 |
S Taheri1, M J Laster, J Liu, E I Eger, M J Halsey, D D Koblin.
Abstract
Because deviations from the Meyer-Overton rule may provide insights into the attributes of the anesthetic site of action, we characterized the solubility of the n-alkanes in various hydrophobic solvents (n-tetradecane, olive oil, n-octanol, and lecithin) as well as saline using variations on standard techniques. Increasing alkane chain length correlated with a decrease in solubility in saline and an increase in solubility in the hydrophobic solvents. The product of solubility in the hydrophobic solvents x the partial pressure (in atmospheres) required to produce anesthesia (i.e., the Meyer-Overton rule) did not produce a constant for any one of these solvents. The means and standard deviations for the products were: tetradecane, 65 +/- 103; olive oil, 33 +/- 63; n-octanol, 64 +/- 129; and lecithin, 16 +/- 26. Thus, our data suggest that the n-alkanes (especially those longer than n-heptane) do not follow the Meyer-Overton rule.Entities:
Mesh:
Substances:
Year: 1993 PMID: 8317750 DOI: 10.1213/00000539-199307000-00003
Source DB: PubMed Journal: Anesth Analg ISSN: 0003-2999 Impact factor: 5.108