Testing the validity of the Danish urban myth that alcohol can be absorbed through feet: open labelled self experimental study.

OBJECTIVE: To determine the validity of the Danish urban myth that it is possible to get drunk by submerging feet in alcohol.
DESIGN: Open labelled, self experimental study, with no control group.
SETTING: Office of a Danish hospital. PARTICIPANTS: Three adults, median age 32 (range 31-35), free of chronic skin and liver disease and non-dependent on alcohol and psychoactive drugs. MAIN OUTCOME MEASURES: The primary end point was the concentration of plasma ethanol (detection limit 2.2 mmol/L (10 mg/100 mL)), measured every 30 minutes for three hours while feet were submerged in a washing-up bowl containing the contents of three 700 mL bottles of vodka. The secondary outcome was self assessment of intoxication related symptoms (self confidence, urge to speak, and number of spontaneous hugs), scored on a scale of 0 to 10.
RESULTS: Plasma ethanol concentrations were below the detection limit of 2.2 mmol/L (10 mg/100 mL) throughout the experiment. No significant changes were observed in the intoxication related symptoms, although self confidence and urge to speak increased slightly at the start of the study, probably due to the setup.
CONCLUSION: Our results suggest that feet are impenetrable to the alcohol component of vodka. We therefore conclude that the Danish urban myth of being able to get drunk by submerging feet in alcoholic beverages is just that; a myth. The implications of the study are many though.

Introduction

According to Danish urban folklore, it is possible to become drunk by submerging feet in alcoholic beverages. Furthermore, claims exist of urine becoming red when feet are submerged in beetroot juice. Because the transcutaneous transport of alcohol to the circulation may have widespread implications, such urban myths need to be investigated in a scientific setting.

We determined whether alcohol can be detected in the circulation of humans after submersion of their feet in vodka; the Peace On Earth (Percutaneous Ethanol Absorption Could Evoke Ongoing Nationwide Euphoria And Random Tender Hugs) study. The results could have great implications, by freeing human resources for other, relevant, activities.

Methods

The Peace on Earth study was open labelled and self experimental, with no control group. It evaluated the effect of submerging feet in 2100 mL of vodka (three bottles’ worth) on the concentration of plasma ethanol. Secondary end points were intoxication related symptoms.

Three healthy adults (all authors, CSH, LHF, and PLK) agreed to participate. None had any chronic skin or liver disease or was dependent on alcohol or psychoactive drugs. None was members of local Alcoholics Anonymous communities or had been implicated in serious incidents or socially embarrassing events related to alcohol during the week before the experiment.

Study protocol

The participants abstained from consuming alcohol 24 hours before the experiment. The evening before the experiment they rubbed their feet with a loofah to remove skin debris. On the day of the experiment, a baseline blood sample was taken through a venous line. The participants then submerged their feet in a washing-up bowl containing the contents of three 700 mL bottles of vodka (Karloff vodka; M R Štefánika, Cífer, Slovakia, 37.5% by volume). Before each blood sample was taken the venous catheter and cannula were flushed with saline by a trained study nurse. Plasma ethanol concentrations were determined every 30 minutes for three hours. Blood samples were taken to the laboratory for immediate analysis by the study nurse. Plasma ethanol concentrations, measured as soon as possible in case of rapid and potentially fatal increases, were determined using a photometric method, with a detection limit of 2.2 mmol/L (10 mg/100 mL, corresponding to 0.010% weight/volume). Participants simultaneously recorded intoxication related symptoms (self confidence, urge to speak, and number of spontaneous hugs) on an arbitrary scale from 0 to 10.

As the size and therefore surface area of the participants’ feet varied, we calculated the surface area as previously proposed.1 The experiments took place in the investigators’ office in which the vodka bottles had been secretly stored for several days at room temperature (20°C).

Statistical analysis

The main results are presented as medians (ranges). We planned a paired t test to compare baseline and maximum values of plasma ethanol concentrations and intoxication related symptoms. The level of significance was 5%, two sided.

Results

The table shows the baseline characteristics of the three participants.

Characteristics of three participants (two men and one woman)

Characteristics	Median (range)
Age (years)	32 (31-35)
Body mass index	24.0 (22.4-25.3)
Foot length (cm)	26 (24-29)
Ball girth* (cm)	23.5 (22-24.5)
Foot surface area (m2)	0.07 (0.06-0.07)
Self determined average alcohol intake per week (units†)	3 (1-7)

*Foot circumference measured with tape measure along heads of metatarsal bones.

†1 unit equals 20 mg/100 mL.

Plasma ethanol concentrations were below the detection limit of 2.2 mmol/L (10 mg/100 mL) during the experiment (three hours). The figure presents the intoxication related symptoms. Changes were not significant.

Self assessed (arbitrary scale 0-10) intoxication related symptoms (self confidence, urge to speak, and spontaneous hugs) in three healthy volunteers (two men and one woman) while their feet were submerged in 2100 mL of vodka (37.5% by volume) for three hours

No skin problems were observed during the experiment. After the experiment, the skin on the participants’ feet was clean and smooth.

Discussion

Our results suggest that the transcutaneous intake of alcohol (vodka, 37.5% by volume) through feet is not possible. We therefore conclude that the Danish urban myth about being able to get drunk by submerging feet in strong alcoholic beverages is just that; a myth. It is possible that beverages with an extremely high alcohol content—for example, absinth (80% by volume)—can penetrate the skin and lead to measurable plasma alcohol concentrations. Also, the transcutaneous uptake of alcohol through feet may be facilitated by skin diseases or ulcers.

The limited number of participants (n=3) is a weakness of this study. However, the frequent measurements of alcohol concentrations, a relevant study period (three hours—a timeframe corresponding to a medium length visit to the local pub), and clear data make the result credible. Moreover, the results are in accordance with a study in which no transcutaneous absorption of alcohol was observed when hands were cleansed several times with an ethanol based hand sanitiser,2 and a study in which ethylene glycol absorption was slow and of low concentration through the skin of six frozen cadavers.3 The last study is not directly applicable to ours because of the frozen state.

As the implications of the study are many, we will mention a few. Driving or leading a vessel with boots full of vodka seems to be safe. Brewery workers cannot become intoxicated by “falling” into a brewery vat. Importantly, students experimenting with transcutaneous alcohol absorption should move on to more relevant activities.

Many questions are still to be answered in the research specialty of alcohol transport across non-gastrointestinal barriers. This study has shown that feet are impenetrable to the alcohol component of Karloff vodka. Other stronger beverages, beetroot juice, or combinations of juices and alcoholic beverages may, however, cross the epithelial barrier of the skin. Moreover, new pastimes, such as “eyeball drinking,” have emerged. The significance of this activity is unknown. Rumour has it that it makes you drunk fast . . . and may damage your eyes.

Danish folklore states that humans can get drunk by submerging their feet in alcoholic beverages

The transcutaneous uptake of alcohol is not possible by submerging feet in vodka