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Regul Toxicol Pharmacol


Title:Predicting blood:air partition coefficients using basic physicochemical properties
Author(s):Buist HE; Wit-Bos L; Bouwman T; Vaes WH;
Address:"TNO Innovation for Life, Research Group Quality & Safety, The Netherlands. harrie.buist@tno.nl"
Journal Title:Regul Toxicol Pharmacol
Year:2012
Volume:20111209
Issue:1
Page Number:23 - 28
DOI: 10.1016/j.yrtph.2011.11.019
ISSN/ISBN:1096-0295 (Electronic) 0273-2300 (Linking)
Abstract:"Quantitative Property Property Relationships (QPPRs) for human and rat blood:air partition coefficients (PBAs) have been derived, based on vapour pressure (Log(VP)), the octanol:water partition coefficient (Log(K(OW))) and molecular weight (MW), using partial least squares multilinear modelling. These parameters are all included in the standard data to be submitted under REACH. The chemical dataset consisted of volatile organic chemicals, principally aliphatic hydrocarbons, benzene derivatives with one aromatic ring, and ethers, with and without halogen atoms. Other chemicals represented were cyclic hydrocarbons and carbonic acid esters. Separate rat and human models were derived, as well as mixed ones. Log(VP) and Log(K(OW)) contributed most to the prediction of Log(PBA) in the three-parameter model, while the contribution of MW was relatively small. Still, the three-parameter model differed significantly from the two-parameter model and performed better. Its performance was comparable to that of models published in public literature, which are based on more complex molecular parameters or on measured olive:oil air and saline/water:air partition coefficients. Since, based on the available data for humans, rats, mice, dogs and rabbits, existence of interspecies differences of PBAs cannot be clearly excluded, the use of separate models for each species is advisable. Concluding, the three-parameter human model Log(PBA)=6.96-1.04 Log(VP)-0.533 Log(K(OW))-0.00495MW and the three-parameter rat model 6.16-0.888 Log(VP)-0.521 Log(K(OW))-0.00201MW provide robust and reliable models for predicting PBA values of volatile organic chemicals using commonly available chemical properties of molecules"
Keywords:"1-Octanol/chemistry *Air Animals *Blood Humans Hydrocarbons/chemistry *Models, Biological Molecular Weight Quantitative Structure-Activity Relationship Rats Vapor Pressure Volatile Organic Compounds/*chemistry Water/chemistry;"
Notes:"MedlineBuist, Harrie E Wit-Bos, Lianne de Bouwman, Tialda Vaes, Wouter H J eng Research Support, Non-U.S. Gov't Netherlands 2011/12/20 Regul Toxicol Pharmacol. 2012 Feb; 62(1):23-8. doi: 10.1016/j.yrtph.2011.11.019. Epub 2011 Dec 9"

 
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