The examples and perspective in this article deal primarily with the United States and do not represent a worldwide view of the subject.(April 2018) |
Field sobriety tests (FSTs), also referred to as standardized field sobriety tests (SFSTs), are a battery of tests used by police officers to determine if a person suspected of impaired driving is intoxicated with alcohol or other drugs. FSTs (and SFSTs) are primarily used in the United States, to meet "probable cause for arrest" requirements (or the equivalent), necessary to sustain an alcohol-impaired driving (DWI or DUI) conviction based on a chemical blood alcohol test.
Impaired driving, referred to as Driving Under the Influence (DUI), or Driving While Intoxicated (DWI), is the crime of driving a motor vehicle while impaired by alcohol or other drugs (including recreational drugs and those prescribed by physicians), to a level that renders the driver incapable of operating a motor vehicle safely. People who receive multiple DUI offenses are often people struggling with alcoholism or alcohol dependence.
Traffic accidents are predominantly caused by driving under the influence; for people in Europe between the age of 15 and 29, DUI is one of the main causes of mortality. [1] According to the National Highway Traffic Safety Administration alcohol-related crashes cause approximately US$37 billion in damages annually. [2] DUI and alcohol-related crashes produce an estimated US$45 billion in damages every year. [3]
With alcohol, a drunk driver's level of intoxication is typically determined by a measurement of blood alcohol content or BAC; but this can also be expressed as a breath test measurement, often referred to as a BrAC. A BAC or BrAC measurement in excess of the specific threshold level, such as 0.08%, defines the criminal offense with no need to prove impairment. In some jurisdictions, there is an aggravated category of the offense at a higher BAC level, such as 0.12%, 0.15% or 0.20%. In many jurisdictions, police officers can conduct field tests of suspects to look for signs of intoxication. The US state of Colorado has a maximum blood content of THC for drivers who have consumed cannabis.
In most countries, driver's licence suspensions, fines and prison sentences for DUI offenders are used as a deterrent. Anyone who is convicted of driving while under the influence of alcohol or other drugs can be heavily fined and/or given a prison sentence. In some jurisdictions, impaired drivers who injure or kill another person while driving may face heavier penalties. In addition, many countries have prevention campaigns that use advertising to make people aware of the danger of driving while impaired and the potential fines and criminal charges, discourage impaired driving, and encourage drivers to take taxis or public transport home after using alcohol or drugs. In some jurisdictions, the bar that served an impaired driver may face civil liability. In some countries, non-profit advocacy organizations, a well-known example being Mothers Against Drunk Driving (MADD) run their own publicity campaigns against drunk driving.
In the United States, drunk driving laws were enacted as early as 1906. [4] However, prior to the early 1980's, drunk driving was regarded as a "folk crime", routinely committed by both good and bad citizens alike, and the crime was rarely prosecuted successfully. [5] The US National Highway Traffic Safety Administration (NHTSA) was formed in 1970. In the early 1970s, Marcelline Burns was writing her Ph.D. thesis in psychology, in California, and she was guided to the idea of researching sobriety tests by Herb Moskowitz, her psychology thesis review professor. The NHTSA had issued several requests for proposals (RFPs). Burns submitted a grant proposal in response to an RFP focused on creating standardized pre-arrest tools for police officers to use to decide which drivers were impaired. The NHTSA funded her proposal, and Burns and Moskowitz began the research in 1975. [6]
Burns began by conducting a literature survey. No researchers in the US, including her, had any significant background in roadside testing. [6] Her survey did find research by Penttilä, Tenhu, and Kataja, who did a retrospective study of the 15 tests then in use by Finnish law enforcement. [6] [7] Burns also examined officer training manuals [7] and went on ride-alongs with the DUI or special enforcement teams of several police departments. Burns observed numerous tests which had been devised, adopted, and modified by officers, with no records of origin or validation of the tests. Burns also observed inconsistent practices, such as some departments not using tests at all. [6] [7] Burns compiled a list of around 15 to 20 tests. [6] She conducted a series of pilot studies, statistical analyses, and practical considerations, and reduced this list to three "recommended" tests: the One-Leg Stand, Walk-and-Turn, and Alcohol Gaze Nystagmus. [7] [8] By 1981, officers in the United States began using this battery of standardized sobriety tests to help make decisions about whether to arrest suspected impaired drivers. [9] As the Los Angeles Police Department was among the first to use these field tests, the law enforcement community sometimes referred to them as the "California tests". [8] The tests were used in real-world conditions and reported as being able to determine intoxication above the then-effective blood alcohol concentration (BAC) limit of .10 grams per deciliter (g/dL) of blood. After some US states began lowering their legal BAC limits to .08 g/dL, other studies reported that the battery could also be used to detect BACs at or above .08 g/dL and above and below .04 g/dL. [10] [11]
The National Highway Traffic Safety Administration (NHTSA) has developed a model system for managing Standardized Field Sobriety Test (SFST) training. They have published several training manuals associated with FSTs. FSTs and SFSTs are promoted as, "used to determine whether a subject is impaired", [12] [13] but FST tests are widely regarded having, as their primary purpose, establishing tangible evidence of "probable cause for arrest" ("reasonable grounds" in Canada). [14] [15] [16] [13] A secondary purpose, is to provide supporting corroborative tangible evidence for use against the suspect for use at trial. Probable cause is necessary under US law (4th Amendment) to sustain an arrest and invocation of the implied consent law.
Similar considerations apply under the Canadian requirement to establish "reasonable grounds" for making an approved instrument demand, by establishing that there is reasonable and probable cause which lies at the "point where credibly-based probability replaces suspicion". [17] [18] It is likely that, if FSTs are being used, some equivalent to probable cause is necessary to sustain a conviction based on a demand for a chemical test.
While the primary purpose of FSTs is to document probable cause or the equivalent, in some jurisdictions, FST performance can be introduced as corroborating evidence of impairment. [19]
During a traffic stop, upon suspicion of DUI, the officer will administer one or more field sobriety tests. FSTs are considered "divided attention tests" that test the suspect's ability to perform the type of mental and physical multitasking that is required to operate an automobile. Nevertheless, these tests can be problematic for people with non-obvious disabilities affecting proprioception, such as Ehlers-Danlos syndrome (EDS). The tests were not validated for people with medical conditions, injuries, 65 years or older, and 50 pounds or greater overweight. According to the NHTSA, a suspect does not "pass" or "fail" a field sobriety test, but rather the police determine whether "clues" are observed during the test. [20] [12] Nevertheless, some of the literature will still include comments that a suspect "fails" one or more of these tests. [20]
The three tests chosen to constitute the "Standardized Field Sobriety Tests" (SFSTs), which have been validated by NHTSA, are:
Most law enforcement agencies use this three-test battery on all DUI traffic stops.
On the subject of standardization, Burns stated that the tests must be administered in a standardized way in order to have meaning as objective measures. That is, the instructions must be given properly, and the critical elements of the test must be preserved, for the scientific studies to meaningfully validate the results of the tests. [6] Up through 2009, NHTSA manuals stated: [22] (emphasis and capitalization as originally supplied)
IT IS NECESSARY TO EMPHASIZE THIS VALIDATION APPLIES ONLY WHEN:
- THE TESTS ARE ADMINISTERED IN THE PRESCRIBED, STANDARDIZED MANNER; THE STANDARDIZED CLUES ARE USED TO ASSESS THE SUSPECT’S PERFORMANCE AND THE STANDARDIZED CRITERIA ARE EMPLOYED TO INTERPRET THAT PERFORMANCE.
- IF ANY ONE OF THE STANDARDIZED FIELD SOBRIETY TEST ELEMENTS IS CHANGED, THE VALIDITY IS COMPROMISED.
The first test that is typically administered is the Horizontal Gaze Nystagmus or HGN test, which is administered by the police officer checking the test subject's eyes. During this test, the officer looks for involuntary jerking of the suspect's eyes as they gaze toward the side. The officer checks for three clues in each eye, which gives six clues for this test. The clues are: lack of smooth pursuit of the eyes, distinct and sustained nystagmus at the eyes' maximum deviation and nystagmus starting before the eyes reach 45 degrees.
While the original research indicated that 6 out of 6 clues (or cues) meant that a person was more likely above 0.08% at the time of the test, subsequent research conducted by the NHTSA has indicated that a "Hit" occurred when the number of reported signs for a given BAC fell within the range: a > 0.06% at 4–6 clues; a 0.05 – 0.059% at 2–4 clues; a 0.03 – 0.049% at 0–4 clues and a < 0.03% at 0–2 cues or clues. [23] The police may also then check for Vertical Gaze Nystagmus, which is used to test for high blood alcohol levels and/or the presence of certain drugs.
While the purpose is obtaining probable cause support for an arrest and possibly screening, in some jurisdictions, the HGN test may be used as corroborating evidence at the trial stage. US jurisdictions differ on whether trial use of the HGN test requires that an expert establish a reliable foundation, as required under the Daubert standard [24]
The second test that is usually administered is the Walk and Turn Test, or WAT Test. [25] This test measures the suspect's ability to maintain their balance, walk in a straight line, and follow directions. To perform the test, the suspect will take nine heel-to-toe steps along a straight line during which time they must keep their arms to their side and count each step out loud. While the suspect performs this test, the officer is attempting to observe if the suspect fails to follow instructions; is having difficulty keeping their balance; stops walking in order to regain their balance; takes an incorrect number of steps; or fails to walk the line heel-to-toe.
The walk-and-turn test is composed of two phases: the Instruction Phase and Walking Phase. During the test, the individual is directed to take nine steps along a straight line. The individual is supposed to walk heel to toe, and while looking down at a real or imaginary line, count the steps out loud. The test subject's arms must remain at their side. Reaching the ending point, the individual must turn around using a series of small steps, and return to the starting point. The proper instruction, according to the NHTSA Guidelines, is as follows:
The other standardized test is the One Leg Stand (OLS). The OLS test requires the suspect to stand on one leg for 30 seconds and also measures balance, coordination, and similar to the WAT test, divides the suspect's attention. The officer is looking for any of the four possible clues: Sways while balancing, uses arms for balance, hopping and puts their foot down.
The One-Leg Stand test is composed of two stages: the Instruction Phase and Balancing Phase. The proper instruction, according to the NHTSA Guidelines, is as follows:
The NHTSA training lists several alternative tests. The term "non-standardized" is used (in contrast to SFSTs), but it is also referenced by the NHTSA as "other sobriety tests". [20] Some of these tests have been scientifically studied and found reliable, while others have not, but in general they do not have as much evidence as the SFSTs. [7] Nevertheless, these tests are common in North America, because the primary purpose of FSTs is to establish probable cause to sustain an arrest and invoke the implied consent law, and thus they do not need to be scientifically validated. In Ohio, only the standardized tests will be admitted into evidence, provided they were administered and objectively scored "in substantial compliance" with NHTSA standards (ORC 4511.19(D)(4)(b)). [26] Such tests include:
The Preliminary Breath Test (PBT) or Preliminary Alcohol Screening test (PAS) is sometimes categorised as part of 'field sobriety testing', although it is not part of the series of performance tests. The PBT (or PAS) uses a portable breath tester, but its primary use is for screening and establishing probable cause for arrest, to invoke the implied consent requirements or to establish "reasonable grounds" for making an approved instrument demand in Canada.
Different requirements apply in many states to drivers under DUI probation, in which case participation in a preliminary breath test (PBT) may be a condition of probation, and for commercial drivers under "drug screening" requirements. Some US states, notably California, have statutes on the books penalizing PBT refusal for drivers under 21; however the Constitutionality of those statutes has not been tested. (As a practical matter, most criminal lawyers advise not engaging in discussion or "justifying" a refusal with the police.)
In Canada, PBT refusal may be considered a 'refusal' offense under Canada Criminal Code § 254. [27] The status of PBT refusal in Australia is unclear, although in Western Australia it appears to mandate submission to PBTs under the Road Traffic Act 1974. [28] [29] (National states without probable cause or "reasonable grounds" requirements are of course likely to be less restrictive on PBT/PAS requirements.)
The use of Field Sobriety Tests (FST) during DUI stops is controversial. One of the common challenges of field sobriety tests is that FSTs are considered subjective - the judgment is left up to the discretion of the police officer. Inter-rater reliability scores range from 0.6 to 0.74, which are considered low to abysmal by most but "highly reliable" by some. [30] It is almost impossible to tell whether or not a police officer used proper procedures for administering or judging the field sobriety test when a case is brought to court without body camera recordings. For example, an officer may have had some bias towards a suspect and judged the test more critically than necessary. [31] [11]
Another criticism of standardized field sobriety tests is the statistical evidence behind them, and the ability of the test to actually judge for impairments related to alcohol. One study involved completely sober individuals who were asked to perform the standardized field sobriety tests, and their performances were videotaped. "After viewing the 21 videos of sober individuals taking the standardized field tests, the police officers believed that forty-six percent of the individuals had 'too much to drink'". [32] One author alleges that FSD analysis reports do not meet scientific peer review standards: "The reports for all three studies issued by NHTSA are lacking much of the material and analysis expected in a scientific paper, and none have been published in peer-reviewed journals" (Rubenzer 2008; [30] Rubenzer 2011).
The statistics used by many of the studies, "arrest accuracy" and "overall accuracy", do not quantify the probability that drivers who fail the SFSTs are impaired. The arrest accuracy measures positive predictive value, while the overall accuracy is called Rand accuracy, and these are both affected by the prevalence rate. For example, the 1998 NHTSA study reports that the officer's decisions (Figure 4) had an overall accuracy of 90.6%, and an arrest accuracy of 89.7%. But 72% of drivers tested had BAC over 0.08%. Calculating sensitivity (98.1%) and specificity (71.1%), which are independent of prevalence, if these are held constant but only 1% of drivers tested had BAC over 0.08%, the arrest accuracy using SFSTs would fall to 3.3% (due to a large number of false arrests) and the overall accuracy to 71.3%. Calculating the likelihood ratio, this is 3.4, a factor considered a slight to moderate probability increase. This factor includes all the officer's observations and judgement during the traffic stop. [11] Studies generally reproduce this likelihood ratio for officer's judgement, ranging from 3.8-4.4. [30] Considering only performance on the SFSTs, a re-analysis of the 1998 data shows that likelihood ratios are highest at 1.50 for 0.05% BAC and 1.87 for 0.01% BAC. In the opinion of the re-analysis authors, these tests are so weak that they do not substantially change the certainty of intoxication beyond the uncertainty of the original guesstimate. [33]
Additionally, their applicability to large segments of the population is limited. As noted above, these tests can be problematic for people with non-obvious disabilities affecting proprioception, such as Ehlers-Danlos syndrome (EDS). Conditions affecting mobility, physical ailments and age adversely affect performance on FSTs. One of the main problems with the walk-and-turn test is that some of the signs of alcohol impairment may stem from other physical problems. Along with that, there are other signs of physical impairment that can stem from various causes, including fatigue, an injury or illness, and nervousness. Those who are physically inactive, elderly, or obese may have trouble completing the walk-and-turn test without flaw. [30] The NHTSA used to say that those who are 50 pounds or more overweight may have difficulty performing the test, and that the suspect must walk along a real line. Later NHTSA manuals removed the weight comment, and also inserted the phrase 'imaginary line' at the instruction phase, even though original research always used a visible line. [32] The fact that officers are no longer required to provide a line for the suspect to walk along may affect the outcome of the test, and often adds to the scrutiny received from critics.
In all US jurisdictions, participation in a Field Sobriety Test is voluntary. [34] (Police are not obliged to advise the suspect that participation in a FST or other pre-arrest procedures is voluntary. In contrast, formal evidentiary tests given under implied consent requirements are considered mandatory.) [35]
A suspect requested to participate in a Field Sobriety Test is likely to be told that the purpose is to determine whether the suspect is impaired; [12] [13] however, FST tests are widely regarded as having, as their primary purpose, gaining tangible evidence for use against the suspect. [15] [16] The evidence is important in the establishment of probable cause for arrest. Since 'probable cause' is necessary under US law (4th Amendment) to sustain an arrest and invocation of the implied consent law, it is important that the police document 'probable cause'.
The NHTSA recommends administering the HGN test as the first of the SFSTs, [12] but does not state the reason. FSTs are voluntary, so consideration is given to encourage suspects to comply with requests to participate in the tests. The HST is characterized by the tester performing a visible activity, so the suspect is less likely to decline at that stage. The completion of one test increases the likelihood that the suspect will participate in follow-up FSTs. The suspect may also perceive the HGN (as administered) as having a scientific foundation.
In cases in which a PBT (or PAS) is administered first, the HGN may be administered after completion of other SFSTs, as the purpose of administering the HGN first is obviated by the PBT/PAS.
FSTs are primarily used in national states that require the police establish probable cause for arrest (reasonable grounds in Canada) as a prerequisite for requiring a chemical blood alcohol test. FSTs are generally regarded as a curiosity elsewhere.[ citation needed ]
To determine impairment in countries such as Australia, a simple breath or urine test is often taken. If police suspect that a driver is under the influence of a substance such as alcohol, then the driver will undergo a breath test. [36] If over the legal limit of 0.05g per 100 millilitres of blood, then a second breath test will be taken and used as evidence against the driver when charged with the offence. [36] If a person is suspected to be under the influence of an illegal drug, they will be required to supply a urine sample. [37] If the urine sample is positive, then the urine is sent for more testing to determine the exact drug taken (confirmation of being illegal or prescribed). [37] A similar process to being over the legal BAC level is undertaken using the evidence to penalise the user. [37]
Commentary varies on taking SFSTs in Canada. Some sources, especially official ones, indicate that the SFSTs are mandatory, [38] [39] [40] and required under § 254(2)(a) of the Criminal code, whereas other sources are silent on FST testing. [41] The assertion regarding mandatory compliance with SFSTs is based on "failure to comply with a demand", as an offence under § 254(5) of the Criminal Code, but it is unclear how refusal of SFSTs under § 254(2)(a) are treated (provided the suspect agrees to take a chemical test). N.B.: There are some reports that refusal to submit to an SFST can result in the same penalties as impaired driving.[ citation needed ]
Nevertheless, it is unclear whether there has ever been a prosecution under this interpretation of "failure to comply with a demand" as applied to SFSTs. Canada Criminal Code § 254(1) and (5) addresses this, but only with respect to chemical testing (breath, blood, etc.) [42]
United States law on DUI primarily falls under state law, but is still subject to federal Constitutional requirements. Thus, in all jurisdictions, participation in FSTs is voluntary. [34]
In the US, the legal procedure is 'police stop' (Police stop requiring "reasonable suspicion" or another qualified reason for a police stop), 'probable cause', and 'arrest'. FSTs are requested in the 'police stop' phase, and are used to provide tangible evidence sufficient to meet the requirements for 'probable cause' for an arrest. Evidential tests are performed in the 'arrest' stage, although the terminology may vary. [43] [35] Regardless of the terminology, in order to sustain a conviction based on evidential tests, 'probable cause' must be shown (or the suspect must volunteer to take the evidential test without implied consent requirements being invoked). [35]
Police are not obliged to advise the suspect that participation in a FST or other pre-arrest procedures is voluntary. In contrast, formal evidentiary tests given under implied consent requirements are considered mandatory. [35]
Drunk driving is the act of operating a motor vehicle with the operator's ability to do so impaired as a result of alcohol consumption, or with a blood alcohol level in excess of the legal limit. For drivers 21 years or older, driving with a blood alcohol concentration (BAC) of 0.08% or higher is illegal. For drivers under 21 years old, the legal limit is lower, with state limits ranging from 0.00 to 0.02. Lower BAC limits apply when operating boats, airplanes, or commercial vehicles. Among other names, the criminal offense of drunk driving may be called driving under the influence (DUI), driving while intoxicated or impaired (DWI), operating [a] vehicle under the influence of alcohol (OVI), or operating while impaired (OWI).
Driving under the influence (DUI) is the offense of driving, operating, or being in control of a vehicle while impaired by alcohol or drugs, to a level that renders the driver incapable of operating a motor vehicle safely. Multiple other terms are used for the offense in various jurisdictions.
An ignition interlock device or breath alcohol ignition interlock device is a breathalyzer for an individual's vehicle. It requires the driver to blow into a mouthpiece on the device before starting or continuing to operate the vehicle. If the resultant breath-alcohol concentration analyzed result is greater than the programmed blood alcohol concentration, the device prevents the engine from being started. The interlock device is located inside the vehicle, near the driver’s seat, and is directly connected to the engine’s ignition system. It is a form of electronic monitoring.
Sobriety is the condition of not having any effects from alcohol and other drugs. Sobriety is also considered to be the natural state of a human being at birth. A person in a state of sobriety is considered sober. Organizations of the temperance movement have encouraged sobriety as being normative in society.
License suspension or revocation traditionally follows conviction for alcohol-impaired or drunk driving. However, under administrative license suspension (ALS) laws, sometimes called administrative license revocation or administrative per se, licenses are confiscated and automatically suspended independent of criminal proceedings whenever a driver either (1) refuses to submit to chemical testing, or (2) submits to testing with results indicating a blood alcohol content of 0.08% or higher.
A traffic stop, colloquially referred to as being pulled over, is a temporary detention of a driver of a vehicle and its occupants by police to investigate a possible crime or minor violation of law.
A breathalyzer or breathalyser, also called an alcohol meter, is a device for measuring breath alcohol content (BrAC). It is commonly utilized by law enforcement officers whenever they initiate traffic stops. The name is a genericized trademark of the Breathalyzer brand name of instruments developed by inventor Robert Frank Borkenstein in the 1950s.
A Drug Recognition Expert (DRE) is a law enforcement officer trained in a scientifically validated method to identify people whose driving is impaired by drugs other than, or in addition to, alcohol. All DREs follow the same 12 step procedure called a Drug Influence Evaluation (DIE), to purportedly determine which category of drugs is causing the driver to be impaired.
Alice Robie Resnick is an American attorney and jurist who served as a Justice of the Supreme Court of Ohio.
A random checkpoint is a military and police tactic. In a military context, checkpoints involve the setup of a hasty roadblock by mobile truck- or armored vehicle-mounted infantry to disrupt unauthorized or unwanted movement or military activity and to check for valid identification and search for contraband, fugitives, or weapons that are not permitted in civilian hands. Random checkpoints are set up to achieve surprise, as opposed to known permanently located checkpoints, which suspects could circumvent. They are often established in locations where they cannot be observed by approaching traffic until it is too late to withdraw and escape without being observed.
Welsh v. Wisconsin, 466 U.S. 740 (1984), was a 1983 case before the US Supreme Court determining that a warrantless home arrest without exigent circumstances violates the Fourth Amendment protection against unlawful search and seizure.
Implied consent is consent which is not expressly granted by a person, but rather implicitly granted by a person's actions and the facts and circumstances of a particular situation. For example, if a person is unconscious as a result of injuries sustained during a traffic collision, medical treatment may be provided to that person, despite the unconscious person being unable to expressly grant consent for that treatment.
Positional alcohol nystagmus (PAN) is nystagmus produced when the head is placed in a sideways position. PAN occurs when the specific gravity of the membrane space of the semicircular canals in the ear differs from the specific gravity of the fluid in the canals because of the presence of alcohol. Heavy water ingestion has the opposite effect.
In Canada, impaired driving is the criminal offence of operating a motor vehicle while the person's ability to operate the vehicle is impaired by alcohol or a drug. The offence includes having care or control of a motor vehicle while the person's ability to operate the motor vehicle is impaired by alcohol or a drug. Impaired driving is punishable under multiple offences in the Criminal Code, with greater penalties depending on the harm caused by the impaired driving. It can also result in various types of driver's licence suspensions.
The laws of driving under the influence vary between countries. One difference is the acceptable limit of blood alcohol content before a person is charged with a crime. Thresholds range from the limit of detection (zero-tolerance) to 0.08%. Some countries have no limits or laws on blood alcohol content.
Drunk driving is the act of driving under the influence of alcohol. A small increase in the blood alcohol content increases the relative risk of a motor vehicle crash.
Alcohol-related traffic crashes are defined by the United States National Highway Traffic Safety Administration (NHTSA) as alcohol-related if either a driver or a non-motorist had a measurable or estimated BAC of 0.01 g/dl or above.
Drug-impaired driving, or drug driving, in the context of its legal definition, is the act of driving a motor vehicle while under the influence of an impairing substance. DUID, or Driving Under the Influence of Drugs, is prohibited in many countries.
Birchfield v. North Dakota, 579 U.S. 438 (2016) is a case in which the Supreme Court of the United States held that the search incident to arrest doctrine permits law enforcement to conduct warrantless breath tests but not blood tests on suspected drunk drivers.
Two main questions arise in the law surrounding driving after having ingested cannabis: (1) whether cannabis actually impairs driving ability, and (2) whether the common practice of testing for THC is a reliable means to measure impairment. On the first question, studies are mixed. Several recent, extensive studies–including one conducted by the National Highway Traffic Safety Administration and one conducted by the American Automobile Association (AAA)–show that drivers with detectable THC in their blood are no more likely to cause car crashes than drivers with no amount of THC in their blood. Others show that cannabis can impair certain abilities important to safe driving –but no studies have been able to show that this increases the actual risk of crashing, or that drivers with THC in their blood cause a disproportionate number of crashes. On the second question, the studies that have been conducted so far have consistently found that THC blood levels and degree of impairment are not closely related. No known relationship between blood levels of THC and increased relative crash risk, or THC blood levels and level of driving impairment, has been shown by single-crash or classic-control studies. Thus, even though it is possible that cannabis impairs driving ability to some extent, there are currently no reliable means to test or measure whether a driver was actually impaired.