Dangers of Sugar Substitutes

 Cyclamate packets, Sugar substitute (Photo credit: Wikipedia)

By Dr. Mercola

With all the dire health effects associated with refined sugar and high fructose corn syrup (HFCS), many wonder what, if anything, is actually safe to use to sweeten your foods and beverages.

It’s certainly a good question. You do have to be cautious when choosing an alternative, as many sweeteners that are widely regarded as "healthy" are, in reality, anything but. A previous National Geographic article1 set out to compare eight different sugar substitutes, which fall into four general categories:

• Artificial sweeteners
• Sugar alcohols
• Natural sweeteners
• Dietary supplements

Sadly lacking from their review are any notations about adverse health effects of many of the sugar substitutes tested.

Despite copious scientific evidence of harm, artificial sweeteners, for example, are promoted in the featured article, and by “experts” in general, as safe because they “pass through your body undigested.” Needless to say, safety concerns will be front and center in this article.

The Case Against Artificial Sweeteners

Sweetener lesson 101: Avoid artificial sweeteners like the plague. While the mechanisms of harm may differ, they’re all harmful in one way or another. This includes aspartame (NutraSweet, Equal), sucralose (Splenda), saccharin(Sweet'N Low), acesulfame potassium, neotame, and others.

Twenty years ago I wasn’t sure, but now there's little doubt in my mind  that artificial sweeteners can be far worse for you than sugar and fructose, and there is plenty of scientific evidence to back up that conclusion. In fact, there’s enough evidence showing the dangers of consuming artificial sweeteners to fill an entire book -- which is exactly why I wrote Sweet Deception.

Aspartame is perhaps the most dangerous of the bunch. At least it’s one of the most widely used and has the most reports of adverse effects. There are also hundreds of scientific studies demonstrating its harmful effects.

This is why it’s so frustrating to see big companies like Coca-Cola Company purposely deceive you on this issue, which is exactly what they’re currently doing with their “public service” announcement-type ads, in which they “affirm” aspartame’s safety and benefits.

Center for Science in the Public Interest’s (CSPI) Executive Director Michael F. Jacobson issued the following statement in response to Coca-Cola’s new ad:2

“Aspartame has been found to cause cancer3—leukemia, lymphoma, and other tumors—in laboratory animals, and it shouldn’t be in the food supply. We certainly want Coca-Cola to shift its product mix toward lower- and no-calorie drinks, but aspartame’s reputation isn’t worth rehabilitating with this propaganda campaign.

The company would be better off phasing out its use of aspartame and accelerating its research into safer, natural sweeteners such as those extracted from the stevia plant.”

Don’t Fall for Coca-Cola’s Deceptive “Public Announcement” Ads

Besides pulling the wool over your eyes with regards to the lack of overall safety of aspartame, I think the FTC would be warranted to sue Coke and the other diet soda manufacturers for fraudulent advertising, seeing how:

1. There’s no scientific evidence showing that the use of diet sodas actually lead to weight loss.
On the contrary, studies have repeatedly shown that artificial sweeteners cause greater weight gain than regular sugar.4 Studies have also repeatedly linked artificial sweeteners with increased hunger. For example, one study published in the journal Physiology & Behavior in 19885 found that intense (no- or low-calorie) sweeteners can produce significant changes in appetite. Of the three sweeteners tested, aspartame produced the most pronounced effects.
2. Scientific evidence shows that aspartame actually worsens insulin sensitivityto a greater degree than sugar.
This is quite the blow for diabetics who obediently follow the recommendation to switch to diet sodas to manage their condition. Unfortunately, in large part due to misleading and deceptive advertising, many doctors and registered nutritionists are still under the illusion that artificial sweeteners are a safe and effective alternative for their diabetic patients.

Artificial sweeteners also appear to cause many of the same health effects associated with high sugar consumption.  Most recently, a report published in the journal Trends in Endocrinology & Metabolism6 highlighted the fact that diet soda drinkers suffer the same exact health problems as those who opt for regular soda, including excessive weight gain, type 2 diabetes, cardiovascular disease andstroke.7, 8 According to the authors:

“This paper... considers the hypothesis that consuming sweet-tasting but noncaloric or reduced-calorie food and beverages interferes with learned responses that normally contribute to glucose and energy homeostasis. Because of this interference, frequent consumption of high-intensity sweeteners may have the counterintuitive effect of inducing metabolic derangements.”

So the very reason anyone would consider using diet instead of sugared sweeteners has no basis in fact. Anyone using them would get the same problems as using regular sugar and expose themselves to the well documented risks of artificial sweeteners.

Be Critical of “All Natural” Sweetener Claims

With artificial sweeteners are out of the picture, let’s look at some all-natural sweeteners. Natural sweeteners such as honey and agave may seem like a healthier choice, but not only are they loaded with fructose, many are also highly processed. In that regard, you’re not gaining a thing. The health effects will be the same, since it’s the fructose that causes the harm.

Agave syrup can even be considered worse than HFCS because it has a higher fructose content than any commercial sweetener, ranging from 70 to 97 percent depending on the brand. HFCS, in comparison, averages 55 percent fructose. What’s worse, most agave "nectar" or agave "syrup" is nothing more than a laboratory-generated super-condensed fructose syrup, devoid of virtually all nutrient value.

Honey is also high in fructose, averaging around 53 percent, but contrary to agave it is completely natural in its raw form, and has many health benefits when used in moderation. Keep in mind you’re not likely to find high quality raw honey in your local grocery store. Most of the commercial Grade A honey is highly processed and of poor quality. All in all, it’s important to realize thatregardless of the source (be it HFCS, honey or agave), refined fructose:

• Tricks your body into gaining weight by fooling your metabolism, as it turns off your body's appetite-control system. Fructose does not appropriately stimulate insulin, which in turn does not suppress ghrelin (the "hunger hormone") and doesn't stimulate leptin (the "satiety hormone"), which together result in your eating more and developing insulin resistance.
• Activates a key enzyme that causes cells to store fat; this is the so-called “fat switch” revealed in Dr. Richard Johnson’s book by the same name.
• Rapidly leads to weight gain and abdominal obesity ("beer belly"), decreased HDL, increased LDL, elevated triglycerides, elevated blood sugar, and high blood pressure—i.e., classic metabolic syndrome.
• Is broken down in your liver just like alcohol, and produces many of the side effects of chronic alcohol use, including non-alcoholic fatty liver disease (NAFLD). Interestingly enough, research has shown that soft drinks increase your risk of NAFLD independently of metabolic syndrome9.
• Over time leads to insulin resistance, which is not only an underlying factor of type 2 diabetes and heart disease, but also many cancers.

What About Sugar Alcohols?

Sugar alcohols can be identified by the commonality of “ol” at the end of their name, such as xylitol glucitol, sorbitol, maltitol, mannitol, glycerol, and lactitol. They’re not as sweet as sugar, and they do contain fewer calories, but they’re not calorie-free. So don’t get confused by the “sugar-free” label on foods containing these sweeteners. As with all foods, you need to carefully read the food labels for calorie and carbohydrate content, regardless of any claims that the food is sugar-free or low-sugar.

One reason that sugar alcohols provide fewer calories than sugar is because they’re not completely absorbed into your body. Because of this, eating too many foods containing sugar alcohols can lead to abdominal gas and diarrhea. It’s also worth noting that maltitol, a commonly used sugar alcohol, spikes blood sugar almost as much as a starchy new potato. Xylitol, in comparison, does not have a great effect on your blood sugar, so from that perspective may be a better choice.

So, in moderation, some sugar alcohols can be a better choice than highly refined sugar, fructose or artificial sweeteners. Of the various sugar alcohols, xylitol is one of the best. When it is pure, the potential side effects are minimal, and it actually comes with some benefits such as fighting tooth decay. All in all, I would say that xylitol is reasonably safe, and potentially even a mildly beneficial sweetener. (As a side note, xylitol is toxic to dogs and some other animals, so be sure to keep it out of reach of your family pets.)

Three of the Safest Sugar-Alternatives

Two of the best sugar substitutes are from the plant kingdom: Stevia and Lo Han Guo (also spelled Luo Han Kuo). Stevia, a highly sweet herb derived from the leaf of the South American stevia plant, is sold as a supplement. It’s completely safe in its natural form and can be used to sweeten most dishes and drinks.

Keep in mind that the same cannot be said for the sugar substitute Truvia, which makes use of only certain active ingredients and not the entire plant. Rebaudioside A is the agent that provides most of the sweet taste of the plant. Usually it’s thesynergistic effect of all the agents in the plant that provide the overall health effect, which oftentimes includes “built-in protection” against potentially damaging effects, but what the FDA has approved as GRAS (generally recognized as safe) are just a couple of the active ingredients, including rebaudioside A used in Truvia.

In one toxicology review,10 the researchers point out that stevioside compounds and rebaudioside A are metabolized at different rates, making it impossible to assess the risk of rebaudioside A from toxicity assessments of stevioside (which has been used as food and medicine in Japan and South America for decades or longer). Additionally, in a human metabolism study, stevioside and rebaudioside A had different pharmacokinetic results. In layman’s terms, that means that your body reacts differently to the two compounds; each compound is metabolized differently and remains in your body for different lengths of time.

Truvia may turn out to be a very good substitute to sugar, but I’d have to see more details before giving it an enthusiastic thumbs-up – for the same reason the FDA uses as the basis for their refusal to consider Stevia GRAS: there’s just not enough evidence to prove its safety. Lo Han Kuo is another natural sweetener similar to Stevia, but it's a bit more expensive and harder to find. In China, the Lo Han fruit has been used as a sweetener for centuries, and it’s about 200 times sweeter than sugar. It received FDA GRAS status in 2009.

A third alternative is to use pure glucose. You can buy pure glucose (dextrose) for about $5-7 per pound. It is only 70 percent as sweet as sucrose, so you'll end up using a bit more of it for the same amount of sweetness, making it slightly more expensive than regular sugar—but still well worth it for your health as it does not contain any fructose whatsoever. Contrary to fructose, glucose can be used directly by every cell in your body and as such is a far safer sugar alternative.

Consider Dampening Your Sweet-Tooth...

Keep in mind though that if you have insulin issues, high blood pressure, high cholesterol, diabetes, or if you're overweight, you'd be best to avoid all sweeteners, including Stevia, Lo Han and dextrose, since any sweetener can decrease your insulin sensitivity. (Most important of all, remember that this goes for artificial sweeteners too!) If you're having trouble weaning yourself off sweet foods and beverages, try Turbo Tapping. It’s a clever use of the Emotional Freedom Techniques (EFT), specifically designed to resolve many aspects of an addiction in a concentrated period of time.

Tell Coke They're a Joke!

Obesity and related metabolic diseases are serious public health problems in the United States, and you are being sorely misled by companies pretending to have a solution that, in reality, only worsen the problem. I strongly urge you to let the Coca-Cola Company know how you feel by telling them to stop their deceptive marketing of soda products. Especially their fake “public announcement” ads for aspartame.

Join me in taking a stand against false advertising and let your voice be heard. If you’re on twitter, send a tweet to #CokeCEO to let the Coca-Cola Company know you are not happy with their deceptive advertising. If you’re on Facebook, please share your thoughts with them on their Facebook Page. Please also email the Coca-Cola Company to let them know how you feel!

Related articles

• Sugar Substitutes - What's Safe and What's Not
• Sugar Substitutes for Weight Loss: Friend or Foe?
• Why are artificial sweeteners bad for you?
• **ALERT** ASPARTAME Has Been RENAMED & is Now BEING MARKED AS A NATURAL SWEETENER ... WHAT YOU NEED TO KNOW
• The Brutally Honest Coca-Cola Commercial You Haven't Seen
• Coca Cola Defends Position of Harming The Masses?

Aspartame: By Far the Most Dangerous Substance Added to Most Foods Today

English: Logo of the U.S. Food and Drug Administration (2006) (Photo credit: Wikipedia)

Aspartame is the technical name for the brand names NutraSweet, Equal, Spoonful, and Equal-Measure. It was discovered by accident in 1965 when James Schlatter, a chemist of G.D. Searle Company, was testing an anti-ulcer drug.

Aspartame was approved for dry goods in 1981 and for carbonated beverages in 1983. It was originally approved for dry goods on July 26, 1974, but objections filed by neuroscience researcher Dr. John W. Olney and consumer attorney James Turner in August 1974, as well as investigations of G.D. Searle's research practices caused the U.S. Food and Drug Administration (FDA) to put approval of aspartame on hold (December 5, 1974). In 1985, Monsanto purchased G.D. Searle and made Searle Pharmaceuticals and The NutraSweet Company separate subsidiaries.

Aspartame accounts for over 75 percent of the adverse reactions to food additives reported to the FDA. Many of these reactions are very serious, including seizures and death. A few of the 90 different documented symptoms listed in the report as being caused by aspartame include:

Headaches/ migraines	Dizziness	Seizures	Nausea	Numbness
Muscle spasms	Weight gain	Rashes	Depression	Fatigue
Irritability	Tachycardia	Insomnia	Vision problems	Hearing loss
Heart palpitations	Breathing difficulties	Anxiety attacks	Slurred speech	Loss of taste
Tinnitus	Vertigo	Memory loss	Joint pain

According to researchers and physicians studying the adverse effects of aspartame, the following chronic illnesses can be triggered or worsened by ingesting of aspartame:

Brain tumors	Multiple sclerosis	Epilepsy	Chronic fatigue syndrome	Parkinson's disease
Alzheimer's	Mental retardation	Lymphoma	Birth defects	Fibromyalgia
Diabetes

Aspartame is made up of three chemicals: aspartic acid, phenylalanine, and methanol. The book Prescription for Nutritional Healing, by James and Phyllis Balch lists aspartame under the category of "chemical poison." As you shall see, that is exactly what it is.

What Is Aspartame Made Of?

Aspartic Acid (40 percent of Aspartame)

Dr. Russell L. Blaylock, a professor of neurosurgery at the Medical University of Mississippi, recently published a book thoroughly detailing the damage that is caused by the ingestion of excessive aspartic acid from aspartame. Blaylock makes use of almost 500 scientific references to show how excess free excitatory amino acids such as aspartic acid and glutamic acid (about 99 percent of monosodium glutamate or MSG is glutamic acid) in our food supply are causing serious chronic neurological disorders and a myriad of other acute symptoms.

How Aspartate (and Glutamate) Cause Damage

Aspartate and glutamate act as neurotransmitters in the brain by facilitating the transmission of information from neuron to neuron. Too much aspartate or glutamate in the brain kills certain neurons by allowing the influx of too much calcium into the cells. This influx triggers excessive amounts of free radicals, which kill the cells. The neural cell damage that can be caused by excessive aspartate and glutamate is why they are referred to as "excitotoxins." They "excite" or stimulate the neural cells to death.

Aspartic acid is an amino acid. Taken in its free form (unbound to proteins), it significantly raises the blood plasma level of aspartate and glutamate. The excess aspartate and glutamate in the blood plasma shortly after ingesting aspartame or products with free glutamic acid (glutamate precursor) leads to a high level of those neurotransmitters in certain areas of the brain.

The blood brain barrier (BBB), which normally protects the brain from excess glutamate and aspartate as well as toxins, 1) is not fully developed during childhood, 2) does not fully protect all areas of the brain, 3) is damaged by numerous chronic and acute conditions, and 4) allows seepage of excess glutamate and aspartate into the brain even when intact.

The excess glutamate and aspartate slowly begin to destroy neurons. The large majority (75 percent or more) of neural cells in a particular area of the brain are killed before any clinical symptoms of a chronic illness are noticed. A few of the many chronic illnesses that have been shown to be contributed to by long-term exposure to excitatory amino acid damage include:

Multiple sclerosis (MS)	Parkinson's disease
ALS	Hypoglycemia
Memory loss	AIDS
Hormonal problems	Dementia
Epilepsy	Brain lesions
Alzheimer's disease	Neuroendocrine disorders

The risk to infants, children, pregnant women, the elderly and persons with certain chronic health problems from excitotoxins are great. Even the Federation of American Societies for Experimental Biology (FASEB), which usually understates problems and mimics the FDA party-line, recently stated in a review that:

"It is prudent to avoid the use of dietary supplements of L-glutamic acid by pregnant women, infants, and children. The existence of evidence of potential endocrine responses, i.e., elevated cortisol and prolactin, and differential responses between males and females, would also suggest a neuroendocrine link and that supplemental L-glutamic acid should be avoided by women of childbearing age and individuals with affective disorders."

Aspartic acid from aspartame has the same deleterious effects on the body as glutamic acid.

The exact mechanism of acute reactions to excess free glutamate and aspartate is currently being debated. As reported to the FDA, those reactions include:

Headaches/migraines	Fatigue (blocks sufficient glucose entry into brain)	Anxiety attacks
Nausea	Sleep problems	Depression
Abdominal pains	Vision problems	Asthma/chest tightness

One common complaint of persons suffering from the effect of aspartame is memory loss. Ironically, in 1987, G.D. Searle, the manufacturer of aspartame, undertook a search for a drug to combat memory loss caused by excitatory amino acid damage. Blaylock is one of many scientists and physicians who are concerned about excitatory amino acid damage caused by ingestion of aspartame and MSG.

A few of the many experts who have spoken out against the damage being caused by aspartate and glutamate include Adrienne Samuels, Ph.D., an experimental psychologist specializing in research design. Another is Olney, a professor in the department of psychiatry, School of Medicine, Washington University, a neuroscientist and researcher, and one of the world's foremost authorities on excitotoxins. (He informed Searle in 1971 that aspartic acid caused holes in the brains of mice.)

Phenylalanine (50 percent of aspartame)

Phenylalanine is an amino acid normally found in the brain. Persons with the genetic disorder phenylketonuria (PKU) cannot metabolize phenylalanine. This leads to dangerously high levels of phenylalanine in the brain (sometimes lethal). It has been shown that ingesting aspartame, especially along with carbohydrates, can lead to excess levels of phenylalanine in the brain even in persons who do not have PKU.

This is not just a theory, as many people who have eaten large amounts of aspartame over a long period of time and do not have PKU have been shown to have excessive levels of phenylalanine in the blood. Excessive levels of phenylalanine in the brain can cause the levels of serotonin in the brain to decrease, leading to emotional disorders such as depression. It was shown in human testing that phenylalanine levels of the blood were increased significantly in human subjects who chronically used aspartame.

Even a single use of aspartame raised the blood phenylalanine levels. In his testimony before the U.S. Congress, Dr. Louis J. Elsas showed that high blood phenylalanine can be concentrated in parts of the brain and is especially dangerous for infants and fetuses. He also showed that phenylalanine is metabolized much more efficiently by rodents than by humans.

One account of a case of extremely high phenylalanine levels caused by aspartame was recently published by the Wednesday Journal in an article titled "An Aspartame Nightmare." John Cook began drinking six to eight diet drinks every day. His symptoms started out as memory loss and frequent headaches. He began to crave more aspartame-sweetened drinks. His condition deteriorated so much that he experienced wide mood swings and violent rages. Even though he did not suffer from PKU, a blood test revealed a phenylalanine level of 80 mg/dl. He also showed abnormal brain function and brain damage. After he kicked his aspartame habit, his symptoms improved dramatically.

As Blaylock points out in his book, early studies measuring phenylalanine buildup in the brain were flawed. Investigators who measured specific brain regions and not the average throughout the brain notice significant rises in phenylalanine levels. Specifically the hypothalamus, medulla oblongata, and corpus striatum areas of the brain had the largest increases in phenylalanine. Blaylock goes on to point out that excessive buildup of phenylalanine in the brain can cause schizophrenia or make one more susceptible to seizures.

Therefore, long-term, excessive use of aspartame may provide a boost to sales of serotonin reuptake inhibitors such as Prozac and drugs to control schizophrenia and seizures.

Methanol a.k.a wood alcohol/poison (10 percent of aspartame)

Methanol/wood alcohol is a deadly poison. Some people may remember methanol as the poison that has caused some "skid row" alcoholics to end up blind or dead. Methanol is gradually released in the small intestine when the methyl group of aspartame encounters the enzyme chymotrypsin.

The absorption of methanol into the body is sped up considerably when free methanol is ingested. Free methanol is created from aspartame when it is heated to above 86 Fahrenheit (30 Centigrade). This would occur when aspartame-containing product is improperly stored or when it is heated (e.g. as part of a "food" product such as Jello).

Methanol breaks down into formic acid and formaldehyde in the body. Formaldehyde is a deadly neurotoxin. An EPA assessment of methanol states that methanol "is considered a cumulative poison due to the low rate of excretion once it is absorbed. In the body, methanol is oxidized to formaldehyde and formic acid; both of these metabolites are toxic." They recommend a limit of consumption of 7.8 mg/day. A one-liter (approx. 1 quart) aspartame-sweetened beverage contains about 56 mg of methanol. Heavy users of aspartame-containing products consume as much as 250 mg of methanol daily or 32 times the EPA limit.

Symptoms from methanol poisoning include headaches, ear buzzing, dizziness, nausea, gastrointestinal disturbances, weakness, vertigo, chills, memory lapses, numbness and shooting pains in the extremities, behavioral disturbances, and neuritis. The most well known problems from methanol poisoning are vision problems including misty vision, progressive contraction of visual fields, blurring of vision, obscuration of vision, retinal damage, and blindness. Formaldehyde is a known carcinogen, causes retinal damage, interferes with DNA replication and causes birth defects.

Due to the lack of a couple of key enzymes, humans are many times more sensitive to the toxic effects of methanol than animals. Therefore, tests of aspartame or methanol on animals do not accurately reflect the danger for humans. As pointed out by Dr. Woodrow C. Monte, director of the food science and nutrition laboratory at Arizona State University: "There are no human or mammalian studies to evaluate the possible mutagenic, teratogenic or carcinogenic effects of chronic administration of methyl alcohol."

He was so concerned about the unresolved safety issues that he filed suit with the FDA requesting a hearing to address these issues. He asked the FDA to:

"...[S]low down on this soft drink issue long enough to answer some of the important questions. It's not fair that you are leaving the full burden of proof on the few of us who are concerned and have such limited resources. You must remember that you are the American public's last defense. Once you allow usage (of aspartame) there is literally nothing I or my colleagues can do to reverse the course. Aspartame will then join saccharin, the sulfiting agents, and God knows how many other questionable compounds enjoined to insult the human constitution with governmental approval."

Shortly thereafter, the Commissioner of the FDA, Arthur Hull Hayes, Jr., approved the use of aspartame in carbonated beverage. He then left for a position with G.D. Searle's public relations firm.

It has been pointed out that some fruit juices and alcoholic beverages contain small amounts of methanol. It is important to remember, however, that methanol never appears alone. In every case, ethanol is present, usually in much higher amounts. Ethanol is an antidote for methanol toxicity in humans. The troops of Desert Storm were "treated" to large amounts of aspartame-sweetened beverages, which had been heated to over 86 degrees F in the Saudi Arabian sun. Many of them returned home with numerous disorders similar to what has been seen in persons who have been chemically poisoned by formaldehyde. The free methanol in the beverages may have been a contributing factor in these illnesses. Other breakdown products of aspartame such as DKP (discussed below) may also have been a factor.

In a 1993 act that can only be described as "unconscionable," the FDA approved aspartame as an ingredient in numerous food items that would always be heated to above 86 degree F (30 degree C).

Diketopiperazine (DKP)

DKP is a byproduct of aspartame metabolism. DKP has been implicated in the occurrence of brain tumors. Olney noticed that DKP, when nitrosated in the gut, produced a compound that was similar to N-nitrosourea, a powerful brain tumor causing chemical. Some authors have said that DKP is produced after aspartame ingestion. I am not sure if that is correct. It is definitely true that DKP is formed in liquid aspartame-containing products during prolonged storage.

G.D. Searle conducted animal experiments on the safety of DKP. The FDA found numerous experimental errors occurred, including "clerical errors, mixed-up animals, animals not getting drugs they were supposed to get, pathological specimens lost because of improper handling," and many other errors. These sloppy laboratory procedures may explain why both the test and control animals had 16 times more brain tumors than would be expected in experiments of this length.

In an ironic twist, shortly after these experimental errors were discovered, the FDA used guidelines recommended by G.D. Searle to develop the industry-wide FDA standards for good laboratory practices.

DKP has also been implicated as a cause of uterine polyps and changes in blood cholesterol by FDA Toxicologist Dr. Jacqueline Verrett in her testimony before the U.S. Senate.

 http://articles.mercola.com/sites/articles/archive/2011/11/06/aspartame-most-dangerous-substance-added-to-food.aspx  Link back to Mercola.com where this article originated.

Related articles

• The Shocking Story of How Aspartame Became Legal
• Aspartame has been Renamed and is Now Being Marketed as a Natural Sweetener | World Truth.TV
• Study Links Aspartame To Fast-Paced Decline in Kidney Function
• Diet Soda, Aspartame Shown to Destroy Kidney Function.
• Documentary: Sweet Misery
• MEDICAL CORNER ... Diet soda drinker???
• Diet soda more cancerous than cigarettes?