Fact-checked by Grok 2 weeks ago

Contact high

A contact high is the experience of mild psychoactive effects, such as euphoria or altered perception, reported by individuals who have not directly consumed cannabis but are exposed to secondhand marijuana smoke in close proximity to users.^[1] This phenomenon typically requires extreme conditions, including prolonged exposure in unventilated spaces like a sealed room, where detectable levels of delta-9-tetrahydrocannabinol (THC), the primary psychoactive compound in cannabis, can enter the bloodstream and cause subtle impairments in cognitive tasks.^[2] For instance, studies have shown that non-smokers in such environments may exhibit minor decreases in performance on memory and attention tests, alongside low blood THC concentrations averaging 3.2 ng/mL immediately after exposure.^[2] While physiological absorption from secondhand smoke accounts for some instances, the contact high is often attributed to psychological mechanisms, including social contagion and empathy, where sober individuals unconsciously mimic the relaxed or euphoric behaviors of those under the influence, creating a placebo-like sensation of intoxication.^[3] This social dimension highlights how group dynamics can amplify perceived effects, as observed in user reports of enhanced bonding or altered mood during shared cannabis sessions.^[3] However, in ventilated settings or with brief exposure, secondhand smoke rarely produces measurable THC levels or impairment, underscoring that significant contact highs from inhalation are uncommon outside controlled, high-exposure scenarios.^[2]^[4] Beyond cannabis, the term occasionally extends to other substances like alcohol or psychedelics, but it is most closely associated with marijuana due to the prevalence of smoking and its cultural depiction in social contexts. Health concerns related to secondhand exposure include respiratory irritation and potential cardiovascular effects, similar to those from tobacco smoke, though long-term risks remain understudied.^[5] Overall, the contact high illustrates the interplay between environmental, physiological, and social factors in substance-related experiences.

Definition and Terminology

Definition

A contact high refers to the phenomenon where a non-user experiences mild psychoactive effects, such as subjective feelings of euphoria or altered perception, from close proximity to individuals under the influence of psychoactive substances, often through psychological mechanisms like empathy or social contagion rather than direct consumption. The term originated in the 1960s counterculture movement, initially describing the perceived altered states induced by being near individuals under the influence of psychedelics like LSD, without direct consumption of the substance.^[6] It was popularized in contexts like experimental psychedelic theater, where sensory stimuli and proximity to users aimed to simulate drug effects non-chemically. Over time, the concept extended to cannabis use within the same era's broader experimentation with mind-altering substances, and in modern usage, it commonly describes physiological effects from passive exposure to secondhand cannabis smoke containing tetrahydrocannabinol (THC), where airborne THC particles may be inhaled and absorbed into the bloodstream in unventilated, high-exposure conditions.^[6] Unlike direct intoxication from active cannabis consumption, a contact high—whether psychological or from low-dose passive inhalation—involves typically milder and shorter-lived effects. These effects are often subtle and may be influenced by psychological factors, such as expectation or environmental cues, distinguishing them from the more intense physiological and cognitive impacts of personal use. In casual discourse, "contact high" is often synonymous with terms like "secondhand high," "passive high," and "environmental high," which describe the perceived psychoactive influence from being near individuals consuming cannabis without personal use.^[7] These expressions highlight the social and perceptual aspects of indirect exposure in non-scientific settings.^[8] An extension of this concept is "third-hand exposure," which involves contact with residual cannabis residues—such as THC-laden particles deposited on surfaces, clothing, or dust—potentially leading to absorption through skin contact, ingestion, or inhalation of re-emitted vapors. Unlike direct secondhand smoke, third-hand residues persist in environments long after smoking ceases, raising concerns about chronic low-level transfer in shared spaces. Studies adapting tobacco research frameworks have quantified THC on indoor surfaces following cannabis use, confirming measurable contamination, though health effects of such exposure remain understudied with limited evidence available.^[9]^[10]^[11] Etymologically, "contact high" emerged in mid-20th-century slang to capture vicarious intoxication, later formalizing in scientific contexts as "passive exposure to marijuana smoke" or "sidestream smoke effects," terms borrowed from tobacco studies to denote emissions from smoldering cannabis between inhalations.^[12] This evolution reflects a shift from colloquial to empirical terminology, emphasizing measurable cannabinoid detection in non-users.^[13]

Mechanisms of Exposure

Pharmacological Basis

The primary psychoactive compound enabling a contact high is delta-9-tetrahydrocannabinol (THC), the main cannabinoid in cannabis that produces euphoric and perceptual effects when absorbed from secondhand smoke aerosols.^[14] Inhalation of these aerosols allows THC to be taken up by non-smokers in enclosed spaces, particularly under unventilated conditions with high-potency cannabis.^[15] Upon inhalation, THC rapidly crosses the alveolar membrane in the lungs and enters the pulmonary bloodstream, achieving detectable plasma concentrations within minutes and mimicking the pharmacokinetics of direct smoking at reduced levels.^[14] From the bloodstream, THC distributes to the brain, where it binds to cannabinoid type 1 (CB1) receptors in regions such as the hippocampus and cerebellum, activating the endocannabinoid system to elicit psychoactive responses similar to those from primary consumption, though with lower intensity due to diminished dosing.^[14] This binding partially agonizes CB1 receptors, modulating neurotransmitter release and contributing to the subjective "high" reported in exposure studies.^[16] The bioavailability of THC from secondhand smoke is substantially lower than from direct inhalation, with non-smokers absorbing roughly 6–18% of the THC dose received by active smokers in extreme, unventilated scenarios involving high-potency (11.3% THC) cannabis.^[15] This reduction stems primarily from dilution of the smoke in ambient air, which disperses THC aerosols and lowers the effective concentration inhaled by bystanders; ventilation further mitigates exposure, often rendering THC undetectable in blood after brief periods.^[2] Combustion byproducts in sidestream smoke, such as carbon monoxide and particulate matter, may also contribute to decreased potency by altering aerosol dynamics and lung deposition efficiency compared to mainstream smoke.^[15] Overall, peak blood THC levels in exposed non-smokers reach 1–5 ng/mL under such conditions, versus 20–160 ng/mL in direct smokers, underscoring the attenuated pharmacological impact.^[15]^[14]

Environmental Factors Influencing Exposure

The concentration of tetrahydrocannabinol (THC) in the air from secondhand cannabis smoke is significantly influenced by ventilation levels, with poorly ventilated or unventilated enclosed spaces leading to higher airborne THC levels and increased exposure risk for non-users. In experimental settings, exposure in unventilated chambers resulted in maximum urinary THCCOOH concentrations of up to 57.5 ng/mL after one hour, whereas introducing ventilation at 11 air changes per hour reduced these levels below detectable limits (no positives >20 ng/mL), demonstrating ventilation's role in diluting smoke particles and cannabinoids. Smaller room volumes exacerbate this effect, as the limited air space confines THC-laden aerosols, elevating particulate matter (PM2.5) concentrations comparable to or exceeding those from secondhand tobacco smoke. For instance, studies in sealed 10 ft. × 13 ft. chambers with multiple participants showed sustained high THC metabolite detection in non-smokers, underscoring how confined environments heighten inhalation risks. More recent studies (as of 2025) confirm that secondhand cannabis smoke can produce high PM2.5 concentrations, increasing exposure risks in residential settings, particularly for children.^[17] Duration of exposure and physical proximity to the source further modulate the intensity of contact high potential, as prolonged time in a smoky area allows for cumulative inhalation of THC particles. Brief encounters, such as passing through a mildly hazy room, typically result in negligible absorption, but extended sessions—e.g., one hour or more seated near active smokers—can lead to detectable THC levels in blood and urine, with effects persisting up to 22 hours post-exposure in unventilated conditions. Closeness to the smoker amplifies this, as non-smokers positioned alternately with users in close quarters experience 2–6 times higher emission rates of fine particles per puff compared to more distant observers, directly correlating with elevated cannabinoid uptake. Characteristics of the smoke itself, including cannabis potency and the method of consumption, determine the quantity and persistence of airborne THC, thereby influencing bystander exposure. Higher THC potency, such as 11.3% versus 5.3% in cannabis cigarettes, produces denser aerosols with greater emission rates, resulting in proportionally higher metabolite concentrations in exposed individuals. Smoking methods vary in their particle output: joints and pipes generate bimodal particle size distributions (380–420 nm and 800–840 nm) with emission rates 2–6 times those of secondhand tobacco smoke per puff, while bongs produce similar fine particulate matter (PM2.5) levels in home settings. User exhalation patterns, such as forceful expulsion in enclosed spaces, further disperse THC particles, with multiple simultaneous users (e.g., 8–25) intensifying overall air contamination by factors tied to the number of cigarettes lit and room air volume.^[2]^[15]

Physiological and Psychological Effects

Short-Term Effects

Exposure to secondhand cannabis smoke, particularly in unventilated environments, can produce mild psychological effects in non-smokers, such as increased sensations of euphoria and sedation. These are evidenced by elevated ratings on visual analog scales for "pleasant drug effect" (mean 20 on a 0-100 scale) and "tired" (mean 45), alongside a subjective "feel drug effect" (mean 16).^[2] Altered perception may manifest as a mild sense of being "high" or "stoned," with effects typically peaking within 10-20 minutes and subsiding after 30-60 minutes.^[2] Physiologically, short-term responses include a modest increase in heart rate, rising from a baseline of about 66 beats per minute to 72 beats per minute immediately following exposure.^[2] Additional changes encompass dry mouth, reported by 21% of exposed individuals, and red or irritated eyes, noted in 31% of cases among law enforcement officers providing security at outdoor concert events.^[18] These symptoms resemble those observed with low-dose direct cannabis inhalation due to absorption of trace THC levels (mean 3.2 ng/mL in blood).^[2] Impairment potential arises from subtle cognitive and motor deficits, including reduced accuracy (from 97% to 93%) and increased attempts on the Digit Symbol Substitution Task, signaling slower reaction times and compromised decision-making.^[2] Such effects, relevant for tasks requiring coordination like driving, peak within 10-20 minutes and generally resolve within 30-60 minutes, contingent on ventilation levels.^[2]

Potential Long-Term Impacts

Repeated exposure to secondhand cannabis smoke has been linked to potential long-term respiratory issues, including chronic irritation and increased risk of bronchitis, stemming from the tar and irritants present in the smoke, which mirror those in tobacco secondhand smoke.^[5] A 2024 study found that adults exposed to secondhand cannabis smoke in the past 30 days reported more frequent respiratory symptoms, such as coughing, wheezing, and shortness of breath, with symptom severity heightened among those who also used cannabis directly.^[19] These effects arise from the combustion byproducts that can cause airway inflammation and mucus production over time, potentially exacerbating conditions like asthma in susceptible individuals.^[20] However, direct long-term studies on secondhand cannabis smoke are limited, with much evidence inferred from similarities to tobacco smoke exposure.^[11] Prolonged low-level THC exposure through secondhand smoke may pose neurocognitive risks, particularly in vulnerable populations such as children and pregnant individuals, where absorbed THC could subtly affect memory, attention, and brain development.^[5] In a 2025 study of 275 children (mean age 3.6 years), 27.3% had detectable THC equivalents in urine, with odds 5 times higher in households with in-home cannabis smoking (OR 5.0, 95% CI 2.4-10.4), raising concerns for developmental impacts akin to those from direct low-dose exposure, including potential deficits in cognitive function.^[17] For pregnant individuals, secondhand exposure could contribute to fetal THC uptake, potentially linked to long-term offspring outcomes like altered attention and motivation, though evidence remains preliminary and largely extrapolated from active use studies.^[21] Systematic reviews highlight a gap in long-term neurocognitive data specific to secondhand exposure, emphasizing the need for further research.^[11] Secondhand cannabis smoke contains carcinogenic compounds, such as polycyclic aromatic hydrocarbons, at levels comparable to or higher than those in tobacco smoke, suggesting an elevated risk of lung cancer with chronic exposure.^[5]^[22] These toxins from combustion byproducts deposit in the lungs over time, similar to the established cancer risks from secondhand tobacco smoke.^[23] While no large-scale epidemiological studies have definitively quantified cancer incidence from secondhand cannabis smoke, the chemical profile indicates a plausible long-term hazard, particularly for nonsmokers in enclosed environments.^[11]

Scientific Studies and Evidence

Key Research Findings

A pivotal study conducted by researchers at Johns Hopkins University in 2015 examined the effects of secondhand cannabis smoke on non-users by exposing participants to smoke from high-potency cannabis (11.3% THC) in controlled chamber environments. In unventilated conditions simulating extreme exposure, such as a small, sealed room with multiple smokers, non-smokers exhibited detectable THC levels in blood (averaging 3.2 ng/mL) and mild subjective effects, including altered mood and impaired performance on cognitive tasks such as the Digit Symbol Substitution Task (DSST), with no significant changes on the Paced Auditory Serial Addition Test (PASAT), though no significant motor impairment was observed. In contrast, ventilated conditions mimicking typical indoor settings resulted in negligible THC absorption and no discernible psychoactive effects, underscoring that contact highs require prolonged, high-concentration exposure.^[2] A 2020 evaluation by the Centers for Disease Control and Prevention (CDC) National Institute for Occupational Safety and Health assessed secondhand cannabis smoke exposure among law enforcement officers providing security at outdoor concert events where cannabis use was prevalent. Of the 29 officers surveyed, 34% had low but measurable levels of THC-COOH (a cannabis metabolite) in their urine samples, all below 1.0 ng/mL and far under standard drug testing thresholds of 50 ng/mL for screening. Perceived contact highs were reported infrequently, with an average subjective rating of 1.6 on a 0-10 scale, and only 17% describing moderate to high sensations; no objective impairment was detected in blood THC levels or performance metrics, indicating minimal occupational risk in open-air settings.^[18] A 2017 systematic review synthesizing data from multiple experimental and observational studies on secondhand marijuana smoke exposure concluded that psychoactivity risks are minimal under normal ventilation and moderate exposure scenarios, with effects limited to subtle physiological changes like elevated heart rate in isolated cases. However, heavy, unventilated exposure could lead to detectable cannabinoid metabolites sufficient to trigger positive drug tests, particularly in urine screening, though clinical intoxication remains rare without direct inhalation. The review emphasized the role of environmental factors in absorption, aligning with pharmacological principles of THC uptake via inhalation, but highlighted the scarcity of long-term data.^[11]

Limitations and Gaps in Research

Research on contact highs, or the effects of secondhand cannabis smoke exposure, is constrained by several methodological limitations that undermine the robustness and applicability of findings. Many studies, including chamber experiments conducted at institutions like Johns Hopkins University, rely on small sample sizes, often involving only 4 to 19 nonsmoking participants, which restricts statistical power and generalizability to diverse populations.^[11]^[24] This issue is compounded by the homogeneity of study cohorts, typically consisting of healthy adults, further limiting insights into how effects vary across age, sex, or health status.^[11] A significant gap arises from the variability in cannabis products used in experiments, which often fail to reflect contemporary market realities. Early studies employed strains with low THC potencies (e.g., around 2.8%), whereas modern cannabis frequently exceeds 11% THC, potentially amplifying secondhand exposure risks that remain underexplored.^[24] Additionally, inconsistencies in environmental factors, such as room ventilation and smoke generation methods (e.g., smoking versus vaping), introduce confounding variables that obscure reproducible outcomes across studies.^[11]^[25] Ethical and practical challenges further exacerbate knowledge deficiencies, particularly regarding vulnerable populations. Simulating realistic heavy or chronic exposure in controlled settings raises consent and safety concerns, resulting in a paucity of data on children, pregnant individuals, or long-term occupational groups like hospitality workers.^[11] Self-report measures in pediatric studies, for instance, are prone to underreporting due to social desirability bias, especially in regions where cannabis use was historically stigmatized or illegal.^[17] Moreover, the absence of objective biomarkers for low-level exposure in youth cohorts highlights the need for advanced detection methods to bridge these gaps.^[26] Overall, these limitations underscore the requirement for larger, more diverse, and ecologically valid investigations to inform public health strategies.^[25]

Representation in Popular Culture

In the realm of film and television, contact highs are often portrayed through exaggerated comedic scenarios in stoner comedies, where pervasive marijuana smoke leads to unintended intoxication for non-users, amplifying humorous chaos. For instance, in Half Baked (1998), characters navigate absurd situations fueled by heavy cannabis use, with secondhand exposure implied in group settings to heighten the slapstick effects. Similarly, Pineapple Express (2008) depicts protagonists in a haze of constant smoking, where the dense atmosphere suggests passive highs contributing to their paranoid escapades. Literature from the counterculture era romanticizes contact highs as a communal aspect of drug experimentation, particularly in works evoking the Beat Generation's influence on 1960s hippie life. Tom Wolfe's The Electric Kool-Aid Acid Test (1968) captures the Merry Pranksters' LSD journeys, where the immersive descriptions of group highs create a "contact high" for readers, reflecting the era's shared altered states without direct consumption. This portrayal underscores passive exposure as a gateway to collective euphoria in bohemian circles.^[27] In music, contact highs are referenced to evoke romanticized notions of indirect bliss, often blending literal and metaphorical interpretations. The band Sublime, emblematic of 1990s ska-punk infused with cannabis themes, contributes to this trope through lyrics celebrating laid-back, smoke-filled environments that imply passive intoxication, as in their album 40oz. to Freedom (1992), which romanticizes weed culture's communal haze. More explicitly, later tracks like Iration's "Contact High" (2020) describe a lingering euphoric energy from proximity, mirroring passive highs in social settings.^[28]^[29] The depiction of contact highs has evolved from 1960s hippie lore—where it was a ritual of campus rebellion, such as crowding into smoke-filled closets for secondary intoxication—to modern expressions that downplay scientific details in favor of casual humor. A 1967 account details students achieving a "contact high" by sealing themselves in confined spaces with joints, creating an "oozy" atmosphere for mild effects without smoking directly, emblematic of the era's experimental ethos. Today, this shifts to lighthearted memes and social commentary, perpetuating the idea as a fun, low-stakes cultural shorthand.^[30]

Legal and Occupational Implications

Concerns regarding drug testing have arisen in contexts involving potential secondhand cannabis smoke exposure, particularly in safety-sensitive occupations where urine screens for THC metabolites are routine. Studies indicate that under extreme, unventilated conditions, non-smokers exposed to high levels of cannabis smoke can exhibit detectable THC-COOH levels in urine, potentially leading to positive results at low cutoffs such as 20 ng/mL, though standard workplace thresholds of 50 ng/mL are rarely exceeded.^[13] For instance, in workplace policies for roles like transportation or manufacturing, employers may implement confirmatory testing or ventilation protocols to mitigate risks of false positives from incidental exposure, as emphasized in guidelines from occupational health authorities.^[31] Occupational guidelines address secondhand cannabis smoke exposure in professions with heightened vulnerability, such as law enforcement and childcare, to ensure worker and public safety. Among law enforcement officers providing security at public events, air monitoring has detected low levels of Δ9-THC (up to 480 ng/m³), with 34% showing trace THC-COOH in urine below screening limits, alongside symptoms like itchy eyes and headaches; recommendations include personal protective equipment and post-exposure monitoring in high-risk scenarios.^[18] In childcare settings, as of 2016, 22 states prohibited marijuana use in centers and 20 in home-based facilities, with regulations aimed at preventing child exposure to secondhand smoke due to its links to respiratory and cognitive risks; ventilation requirements, such as adequate airflow in enclosed spaces, are often mandated to minimize inhalation during any cannabis-related incidents.^[32] In 2018, California's Occupational Safety and Health Administration (Cal/OSHA) considered extending indoor smoking bans to cannabis in enclosed workplaces, including ventilation standards to control airborne hazards; however, as of 2025, no specific regulations have been enacted for secondhand cannabis smoke, and general workplace safety standards apply, while AB 1775 (effective January 2025) permits cannabis smoking and vaping in certain indoor hospitality and entertainment venues.^[33]^[34] Legal precedents involving secondhand cannabis smoke in custody disputes from the 2010s are rare but highlight child welfare considerations. In In re Drake M. (2012), a California appellate court reviewed claims of secondhand exposure from a father's medical cannabis use, ultimately ruling that isolated smoking away from the child did not constitute neglect, provided no direct harm was evidenced, underscoring the need for proof of risk in family law proceedings.^[35] Such cases emphasize evaluating environmental factors like ventilation and proximity in rulings, prioritizing the child's best interests over unsubstantiated exposure fears.

Myths and Misconceptions

Common Beliefs

A prevalent belief surrounding contact highs is that mere casual proximity to individuals smoking marijuana inevitably leads to intoxication for bystanders, regardless of ventilation or duration of exposure.^[36] Another common notion holds that the effects of a contact high are equivalent in potency to those experienced from direct cannabis consumption, suggesting that secondhand smoke delivers comparable levels of psychoactive compounds.^[37] Anecdotal stories frequently circulate about individuals "getting high from the smell alone," such as in public spaces like parks or concerts where marijuana odor lingers in the air.^[7] Similarly, exaggerated claims persist that even brief exposure to secondhand smoke guarantees failure on drug tests, with people recounting scenarios of positive results after simply being in the vicinity of smokers.^[38] These beliefs vary demographically, often being more pronounced among non-users who express fears of passive impairment from involuntary exposure in shared environments like workplaces or homes.^[39] In contrast, cannabis users tend to downplay potential risks to others, viewing secondhand exposure as generally safer or less concerning than that from tobacco smoke.^[40]

Evidence-Based Debunking

The notion that contact highs universally lead to intoxication from casual exposure is not supported by scientific evidence. A 2015 controlled study by Johns Hopkins University researchers exposed non-smokers to secondhand cannabis smoke under varying conditions, finding that mild subjective effects, such as sedation and increased heart rate, occurred only in extreme scenarios: an unventilated 10x10-foot room filled with smoke from high-potency (11.3% THC) cannabis smoked continuously for one hour by multiple participants.^[2] In contrast, exposure in a ventilated room with 11 air changes per hour produced no significant physiological, subjective, or cognitive impairments, mirroring typical everyday environments.^[2] Regarding concerns over drug test reliability, positive results from passive exposure are rare and confined to prolonged, heavy secondhand smoke in unventilated spaces. The same Johns Hopkins study detected THC metabolites in urine above standard cutoff levels (50 ng/mL) in only a subset of participants after extreme unventilated exposure, with levels persisting up to 22 hours in some cases, while ventilated conditions yielded no positives.^[13] Standard workplace or legal urine tests are designed to distinguish such low-level passive intake from active use, as confirmed by confirmatory GC-MS analysis, making false positives from casual contact highs improbable.^[13] Contact highs deliver a fraction of the THC dose from direct smoking, typically insufficient for significant impairment. In the 2015 study, non-smokers in unventilated conditions reached peak blood THC levels of 3.2 ng/mL, compared to 20.7 ng/mL in active smokers under the same protocol—representing about 15% of the active dose in this extreme setup—and resulted in only minor, transient effects rather than substantial intoxication.^[2] Broader reviews indicate that secondhand exposure generally absorbs far less THC due to dilution and ventilation, often below thresholds for noticeable psychoactivity in real-world scenarios.^[24]

References

[1]
Secondhand Marijuana Smoke? - Just Think Twice
Oct 13, 2020 · Can you get a “contact high” from secondhand marijuana smoke? It depends. You'd have to be in an unventilated room, and very close to someone ...
[2]
Non-Smoker Exposure to Secondhand Cannabis Smoke II: Effect of ...
Apr 6, 2015 · Under extreme, unventilated conditions, secondhand cannabis smoke exposure can produce detectable levels of THC in blood and urine, minor ...
[3]
High Culture - Chapter 6 - Drug Library
Socializing. One of the most interesting phenomena reported by marijuana smokers is the "contact high." This occurs when a smoker gets high—or higher—merely ...
[4]
Concentrations of delta9-tetrahydrocannabinol and 11-nor-9-carboxytetrahydrocannabinol in blood and urine after passive exposure to Cannabis smoke in a coffee shop - PubMed
### Summary of Study on Passive Marijuana Exposure
[5]
Cannabis and Secondhand Smoke - CDC
Feb 15, 2024 · Secondhand cannabis smoke contains many of the same toxic and cancer-causing chemicals found in tobacco smoke and some in higher amounts.
[6]
LSD: 'The Contact High'
### Extracted Text on "Contact High"
[7]
Can you really get a secondhand high or contact high? - Weedmaps
Jun 22, 2021 · Whether you're familiar with the term secondhand high, contact high, or contact buzz, the theory is the same: exposure to secondhand weed ...Missing: origin | Show results with:origin
[8]
Secondary Contact High is it a real thing? - MedWell Health
Jan 29, 2025 · ... secondhand smoke from cigarettes. The answer to this is ... high from passive exposure to marijuana smoke are very minimal. Most ...
[9]
Health effects of exposure to second- and third-hand marijuana smoke
Exposure to second-hand marijuana smoke leads to cannabinoid metabolites in bodily fluids, and people experience psychoactive effects after such exposure.
[10]
Thirdhand smoke from tobacco, e-cigarettes, cannabis ...
Comparably, in a clinical trial setting THC residues could be quantified on surfaces after one month (Sempio et al., 2019). CBN and CBD are predicted to exhibit ...
[11]
Surface Detection of THC Attributable to Vaporizer Use in the Indoor ...
Dec 9, 2019 · We demonstrated that surfaces exposed to side-stream cannabis vapor are positive for THC at quantifiable levels.
[12]
Contact highs and urinary cannabinoid excretion after passive ...
Five healthy men were passively exposed under pre- and postplacebo controlled conditions to sidestream smoke from four and 16 standard marijuana cigarettes.Missing: synonyms secondhand<|separator|>
[13]
Non-Smoker Exposure to Secondhand Cannabis Smoke. I. Urine ...
Oct 17, 2014 · Increased cannabis potency has renewed concerns that secondhand exposure to cannabis smoke can produce positive drug tests.<|separator|>
[14]
Human Cannabinoid Pharmacokinetics - PMC - PubMed Central - NIH
THC accumulation in the lung occurs because of high exposure from cannabis smoke, extensive perfusion of the lung, and high uptake of basic compounds in lung ...Missing: secondhand | Show results with:secondhand
[15]
Nonsmoker Exposure to Secondhand Cannabis Smoke. III. Oral ...
Jul 2, 2015 · Nonsmokers tested positive for THC in oral fluid and blood up to 3 hours after exposure. Subjective effects correlated with exposure, mimicking ...
[16]
The pharmacokinetics and the pharmacodynamics of cannabinoids
Whereas THC is a partial agonist at the CB1 and CB2 receptors in the endogenous cannabinoid system and exerts its psychoactive and pain modulatory effects via ...
[17]
Occupational Exposure to Secondhand Cannabis Smoke Among ...
This is a study of occupational exposures to SHCS among LEOs providing security at outdoor concerts on a college campus.
[18]
Secondhand cannabis smoke exposure and respiratory symptoms ...
Jul 23, 2024 · SHCS exposure is common and associated with more frequent respiratory symptoms, particularly among cannabis users. Those exposed were more ...Missing: chronic | Show results with:chronic
[19]
Secondhand Smoke Exposure - Virginia Cannabis Control Authority
Exposure to smoke may negatively impact lung health by increasing risk of asthma attacks, bronchitis, and difficulty breathing. Smoke exposure can also impact ...
[20]
Exposure to Secondhand Cannabis Smoke Among Children
Jan 23, 2025 · Secondhand cannabis smoke (SHCS) is smoke either directly from burned cannabis or from smoker exhalations. SHCS exposure has only recently been ...
[21]
Secondhand Marijuana Smoke Is Not Benign - PMC - NIH
Jul 27, 2016 · We know that smoking and SHS exposure in pregnancy have long‐lasting effects on children's immune system, lung function, and cognitive ...
[22]
Secondhand Marijuana Smoke and Indoor Air Quality | US EPA
May 13, 2025 · Secondhand marijuana smoke can expose bystanders to potentially harmful substances. Ventilation, filtration and air cleaning techniques can reduce harmful ...
[23]
First-of-its-kind research shows dangers of secondhand cannabis ...
Apr 1, 2022 · Cannabis smoke has several hundred toxic chemicals, carcinogens, and fine particulate matter, many at higher concentrations than tobacco smoke.
[24]
Non-smoker exposure to secondhand cannabis smoke II: Effect of ...
Jun 1, 2015 · Exposure to secondhand cannabis smoke results in absorption of cannabinoids. · Secondhand exposure can produce mild subjective and behavioral/ ...
[25]
Secondhand Cannabis Smoke Exposure, Particulate Matter, and ...
Jun 21, 2025 · Recent studies reveal that secondhand cannabis smoke (SHCS) contains extremely high concentrations of air pollutants, such as particulate ...
[26]
Clouding Up Cognition? Secondhand Cannabis and Tobacco ...
Secondhand tobacco exposure was associated with poorer visual memory, while environmental tobacco exposure was related to poorer language and visuospatial ...
[27]
The Electric Kool-Aid Acid Test - Lost Again - WordPress.com
Oct 17, 2011 · ... generation with language and details that immerse you so deeply in their world, you may leave the book with a contact high. The Electric ...Missing: literature | Show results with:literature
[28]
https://www.discogs.com/master/18580-Sublime-40oz-To-Freedom
[29]
Contact High - song and lyrics by Iration - Spotify
Coastin' · 3:06 ; Contact High · 3:31 ; Guava Lane (feat. Eli Mac) · 4:25 ; Daylight Saving · 3:11 ; Zen Island · 4:24.
[30]
Drugs on Campus: Why Marijuana Use Surged in the 1960s
Jun 22, 2017 · Somewhere in between is the “contact high.” One student explains this form of secondary intoxication: “You throw all the clothing out of a ...
[31]
What Can Cause a False Positive Drug Test - WebMD
Jun 17, 2025 · Secondhand Marijuana Smoke ... If you hang out often with someone who puffs on pot, your urine could have traces of THC. That's the chemical in ...
[32]
Childcare Providers' Possession or Use of Marijuana, Tobacco ... - NIH
For example, many states have regulations limiting providers' use of illegal drugs while caring for children. Under federal law, marijuana possession and use ...
[33]
Occupational Exposure to Secondhand Marijuana Smoke - NES Inc.
A Cal/OSHA memorandum was released summarizing a marijuana advisory meeting on secondhand marijuana smoke and other marijuana-related workplace hazards.
[34]
https://no-smoke.org/california-rolls-back-smokefree-workplace-protections-for-cannabis-hospitality-venues/
[35]
Side Effects of Secondhand Marijuana Smoke - Healthline
Jul 22, 2019 · ... secondhand smoke. Secondhand marijuana smoke exposes you to many of ... passive exposure to Cannabis smoke in a coffee shop. DOI: https ...Missing: scientific | Show results with:scientific
[36]
https://www.healthline.com/health/can-you-get-high-from-smelling-weed
[37]
Busting the Myths: Can Second-Hand Smoke Make You Fail a Drug ...
Aug 16, 2024 · One of the main worries about secondhand marijuana smoke is the possibility of experiencing a "contact high." While it's theoretically possible ...Missing: implications | Show results with:implications<|separator|>
[38]
Can exposure to second-hand cannabis smoke be harmful?
Apr 14, 2020 · However, females and cannabis non-users are more likely to experience perceived immediate health impacts compared to males and cannabis users, ...<|control11|><|separator|>
[39]
Perceptions of Safety of Daily Cannabis vs Tobacco Smoking and ...
Aug 11, 2023 · This study found that US adults increasingly perceived daily smoking and secondhand exposure to cannabis smoke as safer than tobacco smoke from 2017 to 2021.