Blood alcohol content

Blood samples for BAC analysis are typically obtained by taking a venous blood sample from the arm. A variety of methods exist for determining blood-alcohol concentration in a blood sample.[5] Forensic laboratories typically use headspace-gas chromatography combined with mass spectrometry or flame ionization detection,[6] as this method is accurate and efficient.[5] Hospitals typically use enzyme multiplied immunoassay, which measures the co-enzyme NADH. This method is more subject to error but may be performed rapidly in parallel with other blood sample measurements.[7]

The amount of alcohol on the breath can be measured, without requiring drawing blood, by blowing into a breathalyzer, resulting in a breath alcohol content (BrAC). The BrAC specifically correlates with the concentration of alcohol in arterial blood, satisfying the equation BAC_arterial = BrAC × 2251 ± 46. Its correlation with the standard BAC found by drawing venous blood is less strong.[8] Jurisdictions vary in the statutory conversion factor from BrAC to BAC, from 2000 to 2400. Many factors may affect the accuracy of a breathalyzer test,[9] but they are the most common method for measuring alcohol concentrations in most jurisdictions.[10]

Blood alcohol content can be estimated by a model developed by Swedish professor Erik Widmark in the 1920s.[11] The model corresponds to a pharmacokinetic single-compartment model with instantaneous absorption and zero-order kinetics for elimination. The model is most accurate when used to estimate BAC a few hours after drinking a single dose of alcohol in a fasted state, and can be within 20% CV of the true value.[12][13] It is less accurate for BAC levels below 0.2 g/L (alcohol is not eliminated as quickly as predicted) and consumption with food (overestimating the peak BAC and time to return to zero).[14][15] The equation varies depending on the units and approximations used, but in its simplest form is given by:

${\displaystyle EBAC={\frac {A}{V_{d}}}-\beta \times T}$

where:

• EBAC is the estimated blood alcohol concentration (in g/L)
• A is the mass of alcohol consumed (g).
• T is the amount time during which alcohol was present in the blood (usually time since consumption began), in hours.
• β is the rate at which alcohol is eliminated (g/L/hr); typically 0.15
• V_d is the volume of distribution (L); typically body weight (kg) multiplied by 0.71 L/kg for men and 0.58 L/kg for women

Examples:

• A 80 kg man drinks 2 US standard drinks (3 oz) of 40% ABV vodka, containing 14 grams of ethanol each (28 g total). After two hours:

$${\displaystyle EBAC=28/(0.71\cdot 80)-(0.148\cdot 2)\approx 0.197{\text{g/L}}=0.0197\%{\text{BAC}}}$$

• A 70 kg woman drinks 63 g of 40% ABV vodka, containing 21 grams of ethanol. After two hours:

$${\displaystyle EBAC=21/(0.58\cdot 70)-(0.156\cdot 2)\approx 0.205{\text{g/L}}=0.0205\%{\text{BAC}}}$$

The volume of distribution V_d contributes about 15% of the uncertainty to Widmark's equation[16] and has been the subject of much research. It corresponds to the volume of the blood in the body.[11] In his research, Widmark used units of mass (g/kg) for EBAC, thus he calculated the apparent mass of distribution M_d or mass of blood in kilograms. He fitted an equation ${\displaystyle M_{d}=\rho _{m}W}$ of the body weight W in kg, finding an average rho-factor of 0.68 for men and 0.55 for women. This ρ_m has units of dose per body weight (g/kg) divided by concentration (g/kg) and is therefore dimensionless. However, modern calculations use weight/volume concentrations (g/L) for EBAC, so Widmark's rho-factors must be adjusted for the density of blood, 1.055 g/mL. This ${\displaystyle \rho _{v}=V_{d}/W}$ has units of dose per body weight (g/kg) divided by concentration (g/L blood) - calculation gives values of 0.64 L/kg for men and 0.52 L/kg for women, lower than the original.[15] Newer studies have updated these values to population-average ρ_v of 0.71 L/kg for men and 0.58 L/kg for women. But individual V_d values may vary significantly - the 95% range for ρ_v is 0.58-0.83 L/kg for males and 0.43-­0.73 L/kg for females.[17] A more accurate method for calculating V_d is to use total body water (TBW) - experiments have confirmed that alcohol distributes almost exactly in proportion to TBW. TBW may be calculated using body composition analysis or estimated using anthropometric formulas based on age, height, and weight. V_d is then given by ${\displaystyle TBW_{\text{kg}}/F_{\text{water}}}$, where ${\displaystyle F_{\text{water}}}$ is the water content of blood, approximately 0.825 w/v for men and 0.838 w/v for women.[18]

The elimination rate from the blood, β, is perhaps the more important parameter, contributing 60% of the uncertainty to Widmark's equation.[16] Similarly to ρ, its value depends on the units used for blood.[15] β varies 58% by occasion and 42% between subjects; it is thus difficult determine β precisely, and more practical to use a mean and a range of values. The mean values for 164 men and 156 women were 0.148 g/L/h and 0.156 g/L/h respectively. Although statistically significant, the difference between sexes is small compared to the overall uncertainty, so Jones recommends using the value 0.15 for the mean and the range 0.10 - 0.25 g/L/h for forensic purposes, for all subjects.[19] Explanations for the gender difference are quite varied and include liver size, secondary effects of the volume of distribution, and sex-specific hormones.[20] Elaborating on the secondary effects, zero-order kinetics are not an adequate model for ethanol elimination; the elimination rate is better described by Michaelis–Menten kinetics. M-M kinetics are approximately zero-order above a BAC of 0.15-0.20 g/L, but below this value alcohol is eliminated more slowly and the elimination rate more closely follows first-order kinetics. This change in behavior was not noticed by Widmark because he could not analyze low BAC levels.[15] A 2023 study using a more complex two-compartment model with M-M elimination kinetics, with data from 60 men and 12 women, found statistically small effects of gender on maximal elimination rate and excluded them from the final model. Eating food in proximity to drinking increases elimination rate significantly.[21]

In terms of fluid ounces of alcohol consumed and weight in pounds, Widmark's formula can be simply approximated as[11]

${\displaystyle EBAC=8\times {\text{fl oz}}/{\text{weight in pounds}}-\beta \times T}$

for a man or

${\displaystyle EBAC=10\times {\text{fl oz}}/{\text{weight in pounds}}-\beta \times T}$

for a woman, where EBAC and β factors are given as g/dL (% BAC), such as a β factor of 0.0015% BAC per hour.[11]

United States standard drinks of beer, malt liquor, wine, and spirits compared. Each contains about 14 grams or 17.7 mL of ethanol.

The examples above define a standard drink as 0.6 fluid ounces (14 g or 17.7 mL) of ethanol, whereas other definitions exist, for example 10 grams of ethanol.

Vitreous (eye) fluid provides an accurate account of blood alcohol concentration in cadavers.[23]

It is illegal to have any measurable alcohol in the blood while driving in these countries. Most jurisdictions have a tolerance slightly higher than zero to account for false positives and naturally occurring alcohol in the body. Some of the following jurisdictions have a general prohibition of alcohol.

• Australia—Drivers who are learners or holders of a Provisional/Probationary licence
• Bangladesh
• Brazil
• Brunei
• Canada—new drivers undergoing graduated licensing in Ontario, British Columbia,[25] Newfoundland and Labrador and Alberta;[26] drivers under the age of 22 in Manitoba, New Brunswick, Northwest Territories, Nova Scotia, Ontario,[27] Saskatchewan and in Quebec receive a 30-day suspension and 7-day vehicle seizure.[28] Drivers in Alberta who are in the graduated licensing program, regardless of age, are subject to the same 30-day/7-day suspensions/seizure policy.[29]
• Colombia —Zero Alcohol Tolerance law is effective since December 2013 [30][31]
• Czech Republic
• Estonia
• Fiji
• Germany—for learner drivers, all drivers 18–21 and newly licensed drivers of any age for first two years of licence
• Iceland: The limit is 0.00%, although drivers will not be fined with a BAC of below 0.05%.[32]
• Israel—24 µg per 100 mL (0.024%) of breath (penalties only apply above 26 µg per 100 mL (0.026%) of breath following lawsuits about sensitivity of devices used). New drivers, drivers under 24 years of age and commercial drivers 5 µg per 100 mL of breath.(0.005%) [33]
• Hungary*
• Italy—for drivers in their first three years after gaining a driving license
• Japan—drivers under the age of 20 because of not reaching legal drinking age.
• Kuwait
• New Zealand—drivers under the age of 20; drivers convicted of excess breath alcohol may be required to gain a zero-limit license.
• Nepal
• Oman
• Qatar
• Pakistan
• Paraguay
• Romania—beyond 0.04% drivers will not only receive a fine and have their license suspended, the offense will also be added to their criminal records.
• Russian Federation—0% introduced in 2010, but discontinued in September 2013[34]
• Saudi Arabia
• Scotland
• Slovakia
• South Africa
• Uruguay[35]
• United Arab Emirates
• Vietnam

• China
• Faroe Islands
• Netherlands (for drivers in their first five years after gaining a driving license)[36]
• Norway (road vehicles and sea vessels over 15 m),[37] alternatively 0.1 mg/L of breath.
• Hungary*
• Poland (0.02% – 0.05% is a petty offence, over 0.05% is a criminal offence)
• Puerto Rico
• Russia (0.018% since September 2013[34])
• Serbia
• Sweden
• Ukraine
• United States—drivers under the age of 21 must have 0.02% or less on the federal level; however, most states have Zero Tolerance laws emplaced. Otherwise the limit is 0.08%, except in Utah, where it is 0.05%.

• Belarus
• Bosnia and Herzegovina (0.031%)
• Chile
• India
• Japan[38]
• Korea

• Lithuania (0.00% for car drivers in their first two years after gaining a driving license, motorcycle and truck drivers)

• Argentina: 0.02% for motorbikes, 0.00% for truck, taxi, and bus drivers, 0.00% in the provinces of Cordoba and Salta
• Australia: 0.00% for Australian Capital Territory learner, provisional and convicted DUI drivers (changed down from 0.02% on December 1, 2010), 0.02% for truck/bus/taxi, 0.00% for learner drivers, provisional/probationary drivers (regardless of age), truck and bus drivers, driving instructors and DUI drivers in all other states
• Austria: no limit for pedestrians; 0.08% for cycling; 0.05% generally for cars <7.5 t (driving licence B) and motorbikes (A); but 0,01% during learning (for driver and teacher or L17-assistant). During probation period (at least the first 3 years) or up to the age of 21, when license was handed out after July 1, 2017, when older (at least the first 2 years) or up to the age of 20 (A1, AM, L17, F), trucks (C >7.5 t), bus (D), drivers of taxi and public transport[39][40]
• Belgium (also for cyclists)
• Bulgaria
• Canada: Alberta, British Columbia, Ontario, Manitoba, Newfoundland, Nova Scotia, New Brunswick—provincial offence. Drivers have not committed a criminal offense, however a 3-day licence suspension and 3-day vehicle seizure occurs.
• Costa Rica
• Croatia: professional drivers, driving instructors and drivers of the vehicle categories C1, C1+E, C, C+E, D, D+E and H; the limit for other drivers is 0.50 mg/g, but they do get an additional separate fine if they cause an accident while having a blood alcohol level between 0 and 0,50 mg/g[41]
• Denmark (excl. Faroe Islands)
• Finland
• France: 0.025% for bus drivers. Between 0.05% and 0.08%, drivers can be fined €135 and have six points removed from their licence. Above 0.08%, the punishment is more severe with possible imprisonment of up to two years, heavy fines and licence suspension.[42]
• Germany (0.0% for learner drivers, all drivers 18–21 and newly licensed drivers of any age for first two years of licence; also, if the BAC exceeds 0.03%, driving is illegal if the driver is showing changes in behavior ("Relative Fahruntüchtigkeit"))
• Greece (0.02% for drivers in their first two years after gaining a driving license)
• Hong Kong
• Ireland: 0.02% for professional, learner and novice drivers (drivers in their first two years after gaining a driving license)[43]
• Israel: 24 µg per 100 mL (0.024%) of breath (penalties only apply above 26 µg per 100 mL (0.026%) of breath due to lawsuits about sensitivity of devices used). This is equivalent to a BAC of 0.05. New drivers, drivers under 24 years of age and commercial drivers 5 µg per 100 mL of breath. This is equivalent to a BAC of 0.01.[33]
• Italy: 0.00% for drivers in their first three years after gaining a driving license
• Latvia: 0.02% for drivers in their first two years after gaining a driving license
• Luxembourg
• Malta: 0.02% for drivers with a probationary driving licence and drivers of commercial vehicles, and 0.00% for drivers of buses, coaches and other passenger carrying vehicles.[44]
• Mauritius[45]
• Netherlands: 0.02% for drivers in their first five years after gaining a driving license[36]
• New Zealand
• North Macedonia: 0.00% for drivers in their first two years after gaining a driving license
• Peru
• Philippines: 0.00% for taxicab and public transport drivers[46]
• Portugal: 0.02% for drivers holding a driver's licence for less than three years, professional drivers, and drivers of taxis, heavy vehicles, emergency vehicles, public transport of children and carrying dangerous goods.
• Scotland: Scotland's drink-drive limit was reduced, by law, on 5 December 2014 from 0.08 to any of the following: 22 mcg of alcohol in 100 mL of breath, 50 mg of alcohol in 100 mL of blood, or 67 mg of alcohol in 100 mL of urine[47]
• Slovenia: 0.00% for drivers in their first two years after gaining a drivers licence, drivers under 21 and professional drivers, such as buses, trucks.
• Spain (0.03% for drivers in their first two years after gaining a driving license and common carriers, such as buses and trucks)
• Switzerland (0.00% for learner drivers, drivers which are in their first three years after gaining a drivers licence and for driving instructors)[48]
• Thailand: 0.02% for drivers who (1) hold a probationary driving licence or; (2) have a licence for different vehicle category or; (3) are under 20 years old or; (4) are disqualified and attempt to drive illegally[49]
• Taiwan: breath alcohol limit decreased from 0.025 to 0.015 from 13 June 2013
• Turkey
• United States – Utah[50]

• The Bahamas[51]

• Honduras

• Canada[52]
• England and Wales;[47] 0.02% for operators of fixed-wing aircraft
• Liechtenstein
• Malaysia: 0.00 for Probationary Driving Licence holders
• Mexico
• New Zealand: Criminal offence
• Norway: legal limit for sea vessels under 15 m[53]
• Northern Ireland: The government of Northern Ireland intends to reduce the general limit to 0.05%.[54]
• Puerto Rico: For drivers 18 years and older
• Singapore[55]
• Trinidad and Tobago
• United States: Every state imposes mandatory penalties for operating a vehicle with a BAC level of 0.08% or greater,[56][57] except Utah where the limit is 0.05%.[58] Even below those levels drivers can have civil liability and other criminal guilt (e.g., in Arizona driving impairment to any degree caused by alcohol consumption can be a civil or criminal offense in addition to other offenses at higher blood alcohol content levels). Drivers under 21 (the most common U.S. legal drinking age) are held to stricter standards under zero tolerance laws adopted in varying forms in all states: commonly 0.01% to 0.05%. See Alcohol laws of the United States by state. Federal Motor Carrier Safety Administration: 0.04% for drivers of a commercial vehicle requiring a commercial driver's license[59] and 0.01% for operators of common carriers, such as buses.[60]

• Cayman Islands

In certain countries, alcohol limits are determined by the breath alcohol content (BrAC), not to be confused with blood alcohol content (BAC).

• In Greece, the BrAC limit is 250 micrograms of alcohol per litre of breath. The limit in blood is 0.50 g/L. The BrAC limit for drivers in their first two years after gaining a driving license and common carriers are more restricted to 100 micrograms per litre of breath.
  • BrAC 250–400 = €200 fine.
  • BrAC 400–600 = €700 fine, plus suspension of driving license for 90 days (introduced in 2007)[61]
  • BrAC >600 = 2 months imprisonment, plus suspension of driving license for 180 days, plus €1,200 fine
• In Hong Kong, the BrAC limit is 220 micrograms per litre of breath (as well as other defined limits)
• In The Netherlands and Finland, the BrAC limit is 220 micrograms of alcohol per litre of breath (μg/L, colloquially known as "ugl" because some types of breathalyzer show the μ as 'u' due to screen size limitations).
• In New Zealand, the BrAC limit is 250 micrograms of alcohol per litre of breath for those aged 20 years or over, and zero (meaning illegal to have any measurable breath alcohol content) for those aged under 20 years.[62]
• In Singapore, the BrAC limit is 350 micrograms of alcohol per litre of breath.[55]
• In Spain the BrAC limit is 250 micrograms of alcohol per litre of breath and 150 micrograms per litre of breath for drivers in their first two years after gaining a driving license and common carriers.
• In England and Wales the BrAC limit is 350 micrograms of alcohol per litre of breath (as well as the above defined blood alcohol content).
• In Scotland the BrAC limit is 220 micrograms of alcohol per litre of breath (as well as the above defined blood alcohol content).
• In Trinidad and Tobago the BrAC limit is 35 micrograms of alcohol per 100 millilitres of breath (as well as the above defined blood alcohol content).

• For South Korea, the penalties for different blood alcohol content levels include
  • 0.01–0.049 = No penalty
  • 0.05–0.09 = 100 days license suspension
  • >0.10 = Cancellation of car license.

Retrograde extrapolation is the mathematical process by which someone's blood alcohol concentration at the time of driving is estimated by projecting backwards from a later chemical test. This involves estimating the absorption and elimination of alcohol in the interim between driving and testing. The rate of elimination in the average person is commonly estimated at 0.015 to 0.020 grams per deciliter per hour (g/dL/h),[67] although again this can vary from person to person and in a given person from one moment to another. Metabolism can be affected by numerous factors, including such things as body temperature, the type of alcoholic beverage consumed, and the amount and type of food consumed.

In an increasing number of states, laws have been enacted to facilitate this speculative task: the blood alcohol content at the time of driving is legally presumed to be the same as when later tested. There are usually time limits put on this presumption, commonly two or three hours, and the defendant is permitted to offer evidence to rebut this presumption.

Forward extrapolation can also be attempted. If the amount of alcohol consumed is known, along with such variables as the weight and sex of the subject and period and rate of consumption, the blood alcohol level can be estimated by extrapolating forward. Although subject to the same infirmities as retrograde extrapolation—guessing based upon averages and unknown variables—this can be relevant in estimating BAC when driving and/or corroborating or contradicting the results of a later chemical test.

• Carnegie Library of Pittsburgh. Science and Technology Department. The Handy Science Answer Book. Pittsburgh: The Carnegie Library, 1997. ISBN 978-0-7876-1013-5.
• Perham, Nick; Moore, Simon C.; Shepherd, Jonathan; Cusens, Bryany (2007). "Identifying drunkenness in the night-time economy". Addiction. 102 (3): 377–80. doi:10.1111/j.1360-0443.2006.01699.x. PMID 17298644.
• Taylor, L., and S. Oberman. Drunk Driving Defense, 6th edition. New York: Aspen Law and Business, 2006. ISBN 978-0-7355-5429-0.