Vape Flavorings Are Cardiotoxic and Can Damage the Heart

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Heart Muscle Cells

The vape flavorings so popular with kids and young adults are cardiotoxic and disrupt the heart’s normal electrical activity, a University of South Florida Health preclinical study finds.

The appealing array of fruit and candy flavors that entice millions of young people take up vaping can harm their hearts, a preclinical study by University of South Florida Health (USF Health) researchers found.

Mounting studies indicate that the nicotine and other chemicals delivered by vaping, while generally less toxic than conventional cigarettes, can damage the lungs and heart. “But so far there has been no clear understanding about what happens when the vaporized flavoring molecules in flavored vaping products, after being inhaled, enter the bloodstream and reach the heart,” said the study’s principal investigator Sami Noujaim, PhD, an associate professor of molecular pharmacology and physiology at the USF Health Morsani College of Medicine.

In their study published on November 20, 2020, in the American Journal of Physiology- Heart and Circulatory Physiology, Dr. Noujaim and colleagues report on a series of experiments assessing the toxicity of vape flavorings in cardiac cells and in young mice.

“The flavored electronic nicotine delivery systems widely popular among teens and young adults are not harm-free,” Dr. Noujaim said. “Altogether, our findings in the cells and mice indicate that vaping does interfere with the normal functioning of the heart and can potentially lead to cardiac rhythm disturbances.”

Dr. Noujaim’s laboratory is among the first beginning to investigate the potential cardiotoxic effects of the many flavoring chemicals added to the e-liquids in electronic nicotine delivery systems, or ENDS. He recently received a five-year, $2.2-million grant from the NIH’s National Institute of Environmental Health Sciences to carry out this laboratory research. Commonly called e-cigarettes, ENDS include different products such as vape pens, mods, and pods.

Sami Noujaim

Sami Noujaim, PhD, associate professor of molecular pharmacology and physiology at the University of South Florida Health (USF Health) Morsani College of Medicine, has begun investigating preclinically the potential cardiotoxic effects of many flavoring chemicals added to the e-liquids in electronic nicotine delivery systems. Credit: Photo courtesy of USF Health

Vaping involves inhaling an aerosol created by heating an e-liquid containing nicotine, solvents such as propylene glycol and vegetable glycerin, and flavorings. The vaping device’s battery-powered heat converts this e-liquid into a smoke-like aerosolized mixture (e-vapor). Manufacturers tout e-cigarettes as a tool to help quit smoking, but evidence of their effectiveness for smoking cessation is limited, and they are not FDA approved for this use. E-cigarettes contain the same highly addictive nicotine found in tobacco products, yet many teens and young adults assume they are safe.

Among the USF Health study key findings:

  • In mouse cardiac muscle cells (HL-1 cells), the researchers tested the toxicity of three different, popular flavors of e-liquid: fruit flavor, cinnamon, and vanilla custard. All three were toxic to HL-1 cells exposed to e-vapor bubbled into the laboratory dish where the cells were cultured.
  • Cardiac cells derived from human pluripotent stem cells were exposed to three distinct e-vapors. The first e-vapor containing only solvent interfered with the electrical activity and beating rate of cardiac cells in the dish. A second e-vapor with nicotine added to the solvent increased the toxic effects on these cells. The third e-vapor comprised of nicotine, solvent, and vanilla custard flavoring (the flavor previously identified as most toxic) augmented damage to the spontaneously beating cells even more. “This experiment told us that the flavoring chemicals added to vaping devices can increase harm beyond what the nicotine alone can do,” Dr. Noujaim said.
  • Healthy young mice implanted with tiny electrocardiogram devices were exposed to 60 puffs of vanilla-flavored e-vapor five days a week, for 10 weeks. Heart rate variability (HRV) – that is, fluctuations in the time interval between successive heartbeats – decreased in these test mice compared to the control mice that inhaled only puffs of air under the same regimen. A sophisticated analysis by the USF Health researchers showed that vaping interfered with normal HRV in the mice by disrupting the autonomic nervous system’s control of heart rate (the acceleration and slowing down of heartbeats), Dr. Noujaim said.
  • Finally, mice exposed to vaping were more prone to an abnormal and dangerous heart rhythm disturbance known as ventricular tachycardia compared to control mice.

Whether the mouse findings will translate to people is unknown. Dr. Noujaim emphasizes that more preclinical and human studies are needed to further determine the safety profile of flavored ENDS and their long-term health effects.

A partial government ban on flavored e-cigarettes aimed at stopping young people from vaping focused on enforcement against flavored e-cigarettes with pre-filled cartridges, like those produced by industry leader JUUL. However, teens quickly switched to newer disposable e-cigarettes still sold in a staggering assortment of youth-appealing fruity and dessert-like flavors.

“Our research matters because regulation of the vaping industry is a work in progress,” Dr. Noujaim said. “The FDA needs input from the scientific community about all the possible risks of vaping in order to effectively regulate electronic nicotine delivery systems and protect the public’s health. At USF Health, in particular, we will continue to examine how vaping may adversely affect cardiac health.”

In 2020, 3.6 million U.S. youths still used e-cigarettes, and among current users, more than eight in 10 reported using flavored varieties, according to the Centers for Disease Control and Prevention.

Reference: “In Vitro and In Vivo Cardiac Toxicity of Flavored Electronic Nicotine Delivery Systems” by Obada Abou-Assali, Mengmeng Chang, Bojjibabu Chidipi, Jose L. Martinez-de-Juan, Michelle Reiser, Manasa Kanithi, Ravi Soni, Thomas Vincent McDonald, Bengt Herweg, Javier Saiz, Laurent Calcul and Sami F. Noujaim, 20 November 2020, American Journal of Physiology-Heart and Circulatory Physiology.
DOI: 10.1152/ajpheart.00283.2020





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