The use of e-cigarettes is on the rise but research into the effects of e-cigarettes lags behind their popularity. The number of teens and tweens using these products doubled between 2011 and 2012.
According to the Centers for Disease Control and Prevention, more than 20 percent of young adults have tried e-cigarettes, and current smokers and recent former smokers are most likely to have used them.
E-cigarettes deliver nicotine in water vapor instead of by burning tobacco. The battery-operated devices have been marketed as an alternative to traditional cigarettes. They look like the real thing. The end glows as you inhale. As you exhale, you puff out a cloud of what looks like smoke.
But we know very little about the toxic substances produced by e-cigarettes and their health effects. More evidence coming forward may ultimately validate that e-cigarettes may be more dangerous than regular cigarettes, potentially causing cancer at comparable and possible faster rates depending on the chemicals used.
E-cigarettes have triggered a fierce debate among health experts who share the same goal -- reducing the disease and death caused by tobacco. However, many now claim they are not so safe after all.
“There’s a perception that e-cigarettes are healthier than regular cigarettes, or at least not as harmful as regular cigarettes,” said John P. Richie Jr., professor of public health sciences and pharmacology. “While e-cigarette vapor does not contain many of the toxic substances that are known to be present in cigarette smoke, ¬†it’s still important for us to figure out and to minimize the potential dangers that are associated with e-cigarettes.”
Previous studies have found low levels of aldehydes, chemical compounds that can cause oxidative stress and cell damage, in e-cigarette “smoke.” But until now, no one has looked for free radicals, the main source of oxidative stress from cigarette smoke. Highly reactive free radicals are a leading culprit in smoking-related cancer, cardiovascular disease and chronic obstructive pulmonary disease.
Instead of smoke, e-cigarettes produce aerosols, tiny liquid particles suspended in a puff of air. The researchers measured free radicals in e-cigarette aerosols.
They found that e-cigarettes produce high levels of highly reactive free radicals that fall in the range of 1,000- to 100-times less than levels in regular cigarettes. Nanotechnology is also being implemeted to produced some of the chemicals involved in their manufacturing.
“This is the first study that demonstrates the fact that we have these highly reactive agents in e-cigarette aerosols,” Richie said. Results were published in the journal Chemical Research in Toxicology.
“The levels of radicals that we’re seeing are more than what you might get from a heavily air-polluted area but less than what you might find in cigarette smoke,” Richie said. The radicals are produced when the device’s heating coil heats the nicotine solution to very high temperatures.
Further research is needed to determine the health effects of highly reactive free radicals from e-cigarettes.
“This is the first step,” Richie said. “The identification of these radicals in the aerosols means that we can’t just say e-cigarettes are safe because they don’t contain tobacco. They are potentially harmful. Now we have to find out what the harmful effects are.”
Richie is currently conducting studies to carefully measure total numbers of free radicals in e-cigarette aerosols and to identify their chemical structures.
“That will help us interpret the data better to know how dangerous they are,” he said.
Some experts are comparing replacing tobacco with e-cigarettes to heroin users switching to the painkiller methadone. The replacement may have its own risks, but is it safer, probably not.