Tag Archives: cavities

October 11, 2015 · 6:10 PM

No Dentist Ever Told Me, “No Carbs, No Cavities”

But it’s true to a great extent. And the worst carbohydrates for your teeth seem to be sugars.

173 Years of U.S. Sugar Consumption

(Thanks to Dr. Stephan Guyenet and Jeremy Landen for this sugar consumption graph.)

MNT on September 16, 2014, published an article about the very prominent role of sugars as a cause of cavities, aka dental caries. This idea deserves much wider circulation.

I’ve written before about the carbohydrate connection to dental health and chronic systemic disease. Furthermore, sugar-sweetened beverages are linked to 200,000 yearly worldwide deaths

Investigators at University College London and the London School of Hygiene & Tropical Medicine think the World Health Organization’s recommendation of a maximum of 10% total daily calories from “free sugar” should be reduced to 3%, with 5% (25 grams) as a fall-back position.

Six teaspoons of granulated table sugar (sucrose) is 25 grams. That should be enough daily sugar for anyone, right? But it’s incredibly easy to exceed that limit due to subtly hidden sugars in multiple foods, especially commercially prepared foods that you wouldn’t expect contain sugar. Chances are, for instance, that you have in your house store-bought sausage, salad dressings, and various condiments with added sugars such as high fructose corn syrup. Sugar’s a flavor enhancer.

tooth structure, paleo diet, caries, enamel

Cross-section of a tooth

The aforementioned “free sugar” as defined as any monosaccharides and disaccharides that a consumer, cook, or food manufacturer adds to foods. In the U.S., we just call these “added sugars” instead of free sugars. From the MNT article, “Sugars that are naturally present in honey, syrup, and fruit juices are also classed as free sugars.” Sugar in the whole fruit you eat is not counted as free or added sugar.

The London researchers found that—in children at least—moving from consuming almost no sugar to 5% of total daily calories doubled the rate of tooth decay. This rose with every incremental increase in sugar intake.

From the MNT article:

“Tooth decay is a serious problem worldwide and reducing sugar intake makes a huge difference,” says study author Aubrey Sheiham, of the Department of Epidemiology & Public Health at University College London. “Data from Japan were particularly revealing, as the population had no access to sugar during or shortly after the Second World War. We found that decay was hugely reduced during this time, but then increased as they began to import sugar again.”

I’m convinced. How about you?

Steve Parker, M.D.

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October 31, 2012 · 1:27 AM

If Eating’s So Important, Why Do Our Teeth Rot So Often?

The truth is that tooth decay is a relatively new phenomenon. Until the rise of agriculture roughly 10,000 years ago, THERE WAS NO TOOTH DECAY IN HUMANS.  Let that sink in for a moment. Humanity is 2,500,000 years old.  For the first 2,490,000 years no one ever had a cavity.  If we understand that tooth decay started when people started farming instead of hunting and gathering for a living clearly you realize that tooth decay is a disease or mismatch between what you are eating and what your body expects you to eat.  If we examine the past as prologue it becomes clear that the path to proper health starts in the mouth and the answers are so simple that not only did a Cave Man do it.  They perfected it.

John Sorrentino in a blog post August 6, 2012

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August 5, 2009 · 4:45 AM

Dental Problems and Systemic Chronic Disease: A Carbohydrate Connection?

Perfect health on a carnivorous, low-carb diet

Perfect health on a carnivorous, low-carb diet

Dentists are considering a return to an old theory that dietary carbohydrates first cause dental diseases, then certain systemic chronic diseases, according to a review in the June 1, 2009, Journal of Dental Research

We’ve known for years that some dental and systemic diseases are associated with each other, both for individuals and populations.  For example, gingivitis and periodontal disease are associated with type 2 diabetes and coronary heart disease.  The exact nature of that association is not clear.  In the 1990s it seemed that infections – chlamydia, for example – might be the unifying link, but this has not been supported by subsequent research.     

The article is written by Dr. Philippe P. Hujoel, who has been active in dental research for decades and is affiliated with the University of Washington (Seattle).  He is no bomb-throwing, crazed, radical. 

The “old theory” to which I referred is the Cleave-Yudkin idea from the 1960s and ’70s that excessive intake of fermentable carbohydrates, in the absence of good dental care, leads both to certain dental diseases – caries (cavities), periodontal disease, certain oral cancers, and leukoplakia – and to some common systemic chronic non-communicable diseases such as coronary heart disease, type 2 diabetes, some cancers, and dementia.  In other words, dietary carbohydrates cause both dental and systemic diseases – not all cases of those diseases, of course, but some.   

Dr. Hujoel does not define “fermentable” carbohydrates in the article.  My American Heritage Dictionary defines fermentation as:

  1. the anaerobic conversion of sugar to carbon dioxide and alcohol by yeast
  2. any of a group of chemical reactions induced by living or nonliving ferments that split complex organic compunds into relatively simple substances

As reported in David Mendosa’s blog at MyDiabetesCentral.com, Dr. Hujoel said, “Non-fermentable carbohydrates are fibers.”  Dr. Hujoel also shared some personal tidbits there. 

In the context of excessive carbohydrate intake, the article frequently mentions sugar, refined carbs, and high-glycemic-index carbs.  Dental effects of excessive carb intake can appear within weeks or months, whereas the sysemtic effects may take decades. 

Hujoel compares and contrasts Ancel Keys’ Diet-Heart/Lipid Hypothesis with the Cleave-Yudkin Carbohydrate Theory.  In Dr. Hujoel’s view, the latest research data favor the Carbohydrate Theory as an explanation of many cases of the aforementioned dental and systemic chronic diseases.  If correct, the theory has important implications for prevention of dental and systemic diseases: namely, dietary carbohydrate restriction.

Adherents of the paleo diet and low-carb diets will love this article; it supports their choices.

I agree with Dr. Hujoel that we need a long-term prospective trial of serious low-carb eating versus the standard American high-carb diet.  Take 20,000 people, randomize them to one of the two diets, follow their dental and systemic health over 15-30 years, then compare the two groups.  Problem is, I’m not sure it can be done.  It’s hard enough for most people to follow a low-carb diet for four months.  And I’m asking for 30 years?!   

Dr. Hujoel writes:

Possibly, when it comes to fermentable carbohydrates, teeth would then become to the medical and dental professionals what they have always been for paleoanthropologists: “extremely informative about age, sex, diet, health.”

Dr. Hujoel mentioned a review of six studies that showed a 30% reduction in gingivitis score by following a diet moderately reduced in carbs.  He mentions the aphorism: “no carbohydrates, no caries.”  Anyone prone to dental caries or ongoing periodontal disease should do further research to see if switching to low-carb eating might improve the situation. 

Don’t be surprised if your dentist isn’t very familiar with the concept.  Has he ever mentioned it to you?

Steve Parker, M.D.,

Author of The Advanced Mediterranean Diet

Reference:  Hujoel, P.  Dietary carbohydrates and dental-systemic diseasesJournal of Dental Research, 88 (2009): 490-502.

Mendosa, David.  Our dental alarm bell.  MyDiabetesCentral.com, July 12, 2009.

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