Your favorite vape flavor may be more harmful than the nicotine itself, according to a new study that used stem cells to study the effect of e-liquids on cardiovascular disease.
The most toxic flavors? Cinnamon and menthol.
As reported in the Journal of the American College of Cardiology, exposure to flavored e-liquids damages the endothelial cells, the thin layer of cells that line the interior surface of blood vessels and play an important role in heart and cardiovascular health.
According to researchers, cigarette smoking causes 1 out of every 3 deaths that result from cardiovascular disease. While the detrimental effects of conventional cigarette smoking in cardiovascular disease are well-documented, there is scarce scientific evidence on the toxicity and health effects of e-cigarettes.
“Traditionally, e-cigarettes were considered a safe way to stop smoking,” says Won Hee Lee, an assistant professor in the basic medical sciences department at the University of Arizona College of Medicine-Phoenix and co-lead and co-senior author of the study.
“Our research calls that idea into question. Despite the rapid increase in popularity, the cardiovascular effects of chemical flavoring in e-cigarettes largely has been unexplored. Using a novel approach of stem cell research, we discovered the harmful effects of these flavorings and the potential cardiovascular risks users may face.”
Lab testing vape flavors
The scientists investigated the effect of the e-liquids on endothelial cells that line the interior of blood vessels using endothelial cells derived from induced pluripotent stem cells, reprogrammed to allow development of an unlimited source of any type of human cell needed, allowing researchers to model diseases in a dish.
“This is the first study to establish that these stem cells can reliably be used as an alternative model to research the detrimental effects of e-cigarettes with existing vascular cells,” Lee says.
The findings show that, when grown in a laboratory, endothelial cells exposed to the e-liquids—or to blood collected from e-cigarette users shortly after vaping—are less viable and exhibit significantly increased levels of molecules implicated in DNA damage and cell death. The cells are also less able to form new vascular tubes and to migrate and participate in wound healing.
Finally, the researchers compared the levels of nicotine in the blood serum of people after they had vaped e-cigarettes with the levels in people who smoked traditional cigarettes. They found similar amounts of nicotine in the blood in the two groups after 10 minutes of smoking at a constant rate.
Toxic to cells
Vaping has grown in popularity in recent years. According to the US Surgeon General, 1 in 20 middle school students and 1 in 5 high schoolers used e-cigarettes in 2017, a 78 percent increase from the previous year. This marks the largest increase in youth use of any substance in the 40 years the Surgeon General’s office has surveyed youth drug use.
Results of the research concluded that acute exposure to flavored e-liquids or e-cigarettes worsens endothelial dysfunction, which often precedes cardiovascular diseases. The cytotoxicity, which is the ability of certain chemicals to destroy living cells, of the e-liquids varied, with cinnamon-flavored products being most potent.
Researchers believe cinnamon and menthol vape flavorings are more toxic to the body because of the chemicals used to make those flavorings.
“There is no safe way to vape,” Lee says. “It’s not as safe as originally thought, especially with the flavoring. Most people expect cigarettes to be worse for our health because of the nicotine. However, that’s not necessarily correct. Some of the effects of exposure to the e-liquids were dependent on the nicotine concentration but others were independent showing a combined effect of nicotine concentrations and flavoring components.”
Lee wants to continue her research to see if she can apply this model to other diseases.
“Using stem cells could provide a new resource to understand the personal and the common genetic underpinnings related to the development of many related cardiovascular diseases.
“This study demonstrates and supports that human-induced pluripotent stem cell-derived endothelial cells represent a robust model for investigating endothelial biology with clear advantages over primary human endothelial cells.”
Source: Teresa Joseph for University of Arizona