Ethanol elimination rates at low concentrations based on two consecutive blood samples.

Høiseth Gudrun, Wiik Elisabeth, Kristoffersen Lena, Mørland Jørg

Norwegian Institute of Public Health, Division of Forensic Sciences, Oslo, Norway; Center for Psychopharmacology, Diakonhjemmet Hospital, Oslo, Norway.

Norwegian Institute of Public Health, Division of Forensic Sciences, Oslo, Norway.

Forensic Sci Int. 2016 Sep;266:191-196. doi: 10.1016/j.forsciint.2016.05.039. Epub 2016 Jun 7.

INTRODUCTION

For ethanol, the elimination curve change from apparent zero to apparent first order kinetics at low blood alcohol concentrations (BACs). This is less studied than elimination at higher BACs, and knowledge about this low BAC elimination is especially missing in drunk drivers representing a population with a high frequency of heavy drinkers with increased rate of ethanol metabolism. The aim of this study was to investigate the point at which elimination rates turns from zero to first order kinetics and the exact elimination rates at the very low BAC intervals in drunk drivers.

METHODS

Two consecutively collected samples from suspected drunk drivers were used. All samples were analyzed by two headspace gas chromatography flame ionization detector methods (limit of quantification=0.04g/kg). The elimination rates at BACs below 0.25g/kg (study group, n=175) was studied in detail, and compared to the elimination rates in a moderate BAC reference group (n=789) as well as a high BAC reference group (n=4435).

RESULTS

There were no differences in age, gender and drivings occurring during night-time between the study group and the reference groups. The mean elimination rates were stable at 0.18-0.19g/kg/h from a BAC of 4.0g/kg and until BAC in the first blood sample fell below 0.19g/kg. At BACs below 0.19g/kg, the mean elimination rate gradually declined from 0.163g/kg/h to the lowest elimination rate of 0.083g/kg/h. There was no relation between the concentration of ethanol and elimination rate at BACs above 0.19g/kg (Pearson's r=0.035, p=0.3), but there was a strong relation between concentration of ethanol and elimination rate at BACs below 0.19g/kg (Pearson's r=0.56, p<0.001).

CONCLUSION

In conclusion, the present study showed that in a population of drunk drivers, the shift from zero order to first order kinetics occurs when BAC falls below 0.19g/kg. Below this points, the present study indicate that drunk drivers show elimination rates comparable to the normal population. These results could assist in back-calculations in cases of drunk driving involving low BACs.

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INTRODUCTION

METHODS

RESULTS

CONCLUSION

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