Vaping’s Hidden Hazard: Study Questions Safety of Nicotine Inhalation – SciTechDaily

Posted: February 16, 2024 at 4:22 pm

A study by the University of Louisville has revealed that nicotine salts in e-cigarettes, especially at higher doses, could increase the risk of heart arrhythmias more than previously believed. This challenges the notion that nicotine in e-cigarettes is harmless and highlights the need for careful consideration and potentially stricter regulations to protect public health.

As the new year begins, individuals who smoke or vape might have made resolutions to quit or reduce their consumption for better health. However, they should exercise caution if they plan to transition from traditional cigarettes to e-cigarettes, which some believe to be a safer option.

A new study from the University of Louisville shows the nicotine in certain types of e-cigarettes may be more harmful than others, increasing the risk for irregular heartbeat, or heart arrhythmias.

A popular claim is that nicotine in e-cigarettes is relatively harmless, whereas additives and combustion products largely account for the harms of traditional cigarettes. The UofL research, which tested the effects of e-cigarettes with various types and doses of nicotine in animal models, showed that the nicotine form contained in pod-based e-cigarettes, nicotine salts, led to heart arrhythmias, particularly at higher doses.

In the study, published in Nicotine and Tobacco Research, researchers compared heart rate and heart rate variability in mice exposed to vape aerosols containing different types of nicotine. The aerosols contained either freebase nicotine, used in older types of e-cigarettes; nicotine salts, used in Juul and other pod-based e-cigarettes; or racemic freebase nicotine, simulating the recently popularized synthetic nicotine; and their effects were compared to nicotine-free e-cigarette aerosols or air. In addition, the research team delivered increasing concentrations of the nicotine over time, from 1% to 2.5% to 5%.

The nicotine salts induced cardiac arrhythmias more potently than freebase nicotine, and the cardiac arrhythmias increased with the higher concentrations of nicotine.

This suggests the nicotine is harmful to the heart and counters popular claims that the nicotine itself is harmless, said Alex Carll, assistant professor in UofLs Department of Physiology, who led the study. Our findings provide new evidence that nicotine type and concentration modify the adverse cardiovascular effects of e-cigarette aerosols, which may have important regulatory implications.

The study also revealed that the higher levels of nicotine salts increased sympathetic nervous system activity, also known as the fight-or-flight response, by stimulating the same receptor that is inhibited by beta-blockers, heart medications that are prescribed to treat cardiac arrhythmias. In the autonomic nervous system, sympathetic dominance increases the fight-or-flight response in bodily functions, including heart rate.

The nicotine in e-cigarettes causes irregular heartbeats (arrhythmias) in a dose-dependent manner by stimulating the very receptor that many heart medications are designed to inhibit, Carll said.

The findings conclude that inhalation of e-cig aerosols from nicotine-salt-containing e-liquids could increase cardiovascular risks by inducing sympathetic dominance and cardiac arrhythmias.

This work is part of a growing body of research on the potential toxicity and health impacts of e-cigarettes reported by the American Heart Association Tobacco Regulation and Addiction Center, for which UofL serves as the flagship institute. The teams previous research found that exposure to e-cigarette aerosols containing certain flavors or solvent vehicles caused ventricular arrhythmias and other conduction irregularities in the heart, even without nicotine, leading Carll to speculate that the arrhythmias may not be the result of the nicotine alone, but also by the flavors and solvents included in the e-cigarettes.

The researchers concluded that, if these results are confirmed in humans, regulating nicotine salts through minimum pH standards or limits on acid additives in e-liquids may mitigate the public health risks of vaping.

Even without regulatory changes, however, the research suggests that users may reduce potential harm by opting for e-cigarettes with freebase nicotine instead of nicotine salts or using e-cigarettes with a lower nicotine content.

Reference: Nicotine Formulation Influences the Autonomic and Arrhythmogenic Effects of Electronic Cigarettes by Cory Kucera, Anand Ramalingam, Shweta Srivastava, Aruni Bhatnagar and Alex P Carll, 27 November 2023, Nicotine & Tobacco Research. DOI: 10.1093/ntr/ntad237

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Vaping's Hidden Hazard: Study Questions Safety of Nicotine Inhalation - SciTechDaily

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