Diagnostic meaning of urinary ethyl glucoside concentrations in relationship to alcoholic beverage consumption

•We investigated urinary EG isomers as a drinking marker of alcoholic beverages.•EG concentrations could estimate the presence or absence of drinking.•EG concentration could estimate the elapsed time after drinking.•EG concentration could estimate the specific alcoholic beverage consumed.•It is cons...

Full description

Saved in:
Bibliographic Details
Published in:Legal medicine (Tokyo, Japan) Japan), 2022-11, Vol.59, p.102142-102142, Article 102142
Main Authors: Nakano, Ryoko, Waters, Brian, Hara, Kenji, Takayama, Mio, Matsusue, Aya, Kashiwagi, Masayuki, Kubo, Shin-ichi
Format: Article
Language:English
Subjects:
Alcoholic beverages
Drinking marker
Ethanol
Forensic autopsy cases
Urinary ethyl glucosides isomers
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•We investigated urinary EG isomers as a drinking marker of alcoholic beverages.•EG concentrations could estimate the presence or absence of drinking.•EG concentration could estimate the elapsed time after drinking.•EG concentration could estimate the specific alcoholic beverage consumed.•It is considered that urinary EG can be a marker of alcoholic beverage consumption.•EG concentrations could provide useful for estimating the presence or absence of drinking. Incidents and accidents often involve the drinking of alcoholic beverages. We investigated compounds that indicate the consumption of alcoholic beverages even after ethanol (EtOH) becomes undetectable in blood and urine. Ethyl glucoside (EG) has been isolated as a possible drinking marker, and a GC–MS/MS method for EG isomers has been developed. EG isomers in several alcoholic beverages were analyzed. In sake, only αEG was observed in high concentrations. In wine and beer, both α and βEG were detected. Whisky, however, did not contain EG. EtOH and EG concentrations were analyzed in urine up to 48 h after ingestion. Maximum EtOH concentrations were reached in 1–2 h and was mostly eliminated in 6 h. Maximum EG concentrations were reached in 3–6 h, gradually decreased, and remained low after 24 h. After drinking sake, the αEG concentrations were much higher than that of other alcoholic beverages. After drinking wine or beer, βEG was detected, but lower than αEG. Also, αEG was detected in urine after drinking whisky that contained no EG. This suggested that αEG may be synthesized in vivo. Disaccharide-degrading enzymes such as α-glucosidase are present in the human small intestine. It was considered that αEG was synthesized when alcohol was consumed with certain foods, such as carbohydrates. In actual forensic autopsy cases, EtOH and EG isomer analysis provided useful information regarding drinking history. In conclusion, it is considered that urinary EG isomers can be used as drinking markers that complement EtOH analysis.
ISSN:1344-6223
1873-4162
DOI:10.1016/j.legalmed.2022.102142