News Release

Frequent teen vaping might boost risk of toxic lead and uranium exposure

Potentially harmful to brain and organ development, suggest researchers. Findings underscore need for implementation of regulations and targeted prevention

Peer-Reviewed Publication

BMJ Group

Frequent teen vaping might boost the risk of exposure to lead and uranium, potentially harming brain and organ development, suggests research published online in the journal Tobacco Control.

 

The findings underscore the need for implementation of regulations and prevention efforts targeting teens, emphasise the researchers.

Vaping is popular with teens. In 2022, an estimated 14% of US high school students—around 2.14 million—and more than 3% of middle school students—around 380,000—reported vaping in the preceding month, note the researchers.

Certain metals have been identified in e-cigarette aerosols and liquids. Their absorption is especially harmful during periods of development, say the researchers, citing research showing that increased levels of exposure are linked to cognitive impairment, behavioural disturbances, respiratory complications, cancer, and cardiovascular disease in children.

The researchers wanted to find out whether potentially toxic metal levels might be associated with vaping frequency and whether flavour might be influential.

They drew on responses to the nationally representative Wave 5 (December 2018 to November 2019) of the PATH Youth Study, involving 1607 teens between the ages of 13 and 17. After exclusions, 200 vapers were included in the final analysis. 

Their urine samples were tested for the presence of cadmium, lead, and uranium, and vaping frequency was designated as occasional (1–5 days/month), intermittent (6–19 days), and frequent (20+ days).

Vape flavours were grouped into four mutually exclusive categories: menthol or mint; fruit; sweet, such as chocolate or desserts; and others, such as tobacco, clove or spice, and alcoholic or non-alcoholic drinks.

Among the 200 exclusive vapers (63% female), 65 reported occasional use, 45 intermittent, and 81 frequent use; vaping frequency information was missing for 9. 

The average number of recent puffs per day increased in tandem with vaping frequency: occasional = 0.9 puffs; intermittent = 7.9 puffs; frequent = 27 puffs.

In the preceding 30 days 1 in 3 (33%) vapers said they used menthol/mint flavours; half (50%) favoured fruit flavours; just over 15% opted for sweet flavours; and 2% used other flavours.

Analysis of the urine samples showed that lead levels were 40% higher among intermittent vapers, and 30% higher among frequent vapers than they were among occasional vapers. Urinary uranium levels were also twice as high among frequent vapers than among occasional vapers 

Comparison of flavour types indicated 90% higher uranium levels among vapers who preferred sweet flavours than among those opting for menthol/mint. 

No statistically significant differences were found in urinary cadmium levels between vaping frequency or flavour types.

This is an observational study, and as such no definitive conclusions can be drawn about toxic metal levels and vaping frequency/flavours, acknowledge the researchers, who also caution that the levels of toxic metals in vapes will vary by brand and type of vaporiser used (tank, pod, mod).

Although urinary levels indicate chronic exposure, they were assessed at just one point in time, added to which the presence of uranium in the urine may be attributable to various sources including environmental exposure from natural deposits, industrial activities, and dietary intake, they add.

“None the less,these compounds are known to cause harm in humans,” they write. Of particular concern were the increased uranium levels found within the sweet flavour category, they add. 

“Candy-flavoured e-cigarette products make up a substantial proportion of adolescent vapers, and sweet taste in e-cigarettes can suppress the harsh effects of nicotine and enhance its reinforcing effects, resulting in heightened brain cue-reactivity.” 

And they conclude: “E-cigarette use during adolescence may increase the likelihood of metal exposure, which could adversely affect brain and organ development.

“These findings call for further research, vaping regulation, and targeted public health interventions to mitigate the potential harms of e-cigarette use, particularly among adolescents.”

 


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