Headspace solid-phase microextraction and gas chromatographic–mass spectrometric screening for volatile hydrocarbons in blood

Abstract

Optimization for headspace solid-phase microextraction (SPME) was studied with a view to performing gas chromatographic–mass spectrometric (GC–MS) screening of volatile hydrocarbons (VHCs) in blood. Twenty hydrocarbons comprising aliphatic hydrocarbons ranging from n-hexane to n-tridecane, and aromatic hydrocarbons ranging from benzene to trimethylbenzenes were used in this study. This method can be used for examining a burned body to ascertain whether the victim had been alive or not when the burning incident took place. n-Hexane, n-heptane and benzene, the main indicators of gasoline components, were found as detectable peaks through the use of cryogenic oven trapping upon SPME injection into a GC–MS instrument. The optimal screening procedure was performed as follows. The analytes in the headspace of 0.2 g of blood mixed with 0.8 ml of water plus 0.2 μg of toluene- d 8 at −5°C were adsorbed to a 100-μm polydimethylsiloxane (PDMS) fiber for 30 min, and measured using the full-mass-scanning GC–MS method. The lower detection limits of all the compounds were 0.01 μg per 1 g of blood. Linearities ( r 2) within the range 0.01 to 4 μg per 1 g of blood were only obtained for the aromatic hydrocarbons at between 0.9638 (pseudocumene) and 0.9994 (toluene), but not for aliphatic hydrocarbons at between 0.9392 ( n-tridecane) and 0.9935 ( n-hexane). The coefficients of variation at 0.2 μg/g were less than 8.6% ( n-undecane). In conclusion, this method is feasible for the screening of volatile hydrocarbons from blood in forensic medicine.