Posts for tag: tooth decay
$9.1 billion: That's how much we Americans spent in 2018 on Halloween festivities, according to the National Retail Federation. And a sizeable chunk of that was for candy—a whopping 600 million pounds worth. That, my friends, is a lot of sugary goodness. For kids, it's what Halloween is all about—scoring a sack full of sticky, gooey, crunchy candy. For parents, though, all that sugar raises concerns for their kids' dental health.
That's because of something that loves sugar as much as little humans: oral bacteria. The more these microscopic creatures consume, the more they reproduce, which consequently leads to more mouth acid, a by-product of their digestion. Elevated acid levels can dissolve the mineral content in enamel and create the conditions for tooth decay.
To cut to the chase, excessive candy consumption increases the risk of tooth decay. Short of banning candy and ruining your kids' holiday fun, what then can you do to lower that risk this Halloween?
Here are a few tips:
Limit candy to mealtimes. The mouth's acid levels tend to rise while we're eating. The body counters with saliva, which has the capacity to neutralize acid and restore lost minerals to enamel. But if your kids are snacking on sweets over a long period, saliva can't get ahead of the recurring waves of acid. So, try to limit your kids' candy consumption to a few pieces at mealtimes only.
Don't brush right after eating candy. The short period during and after eating of high acid levels can still soften tooth enamel. If your child brushes soon after eating candy, they could also remove tiny bits of softened enamel. Instead, wait at least 30 minutes to an hour before brushing to allow saliva time to remineralize the enamel.
Encourage alternatives to candy as Halloween treats. While candy is a huge part of Halloween, it needn't have a monopoly on all the celebratory fun. So, encourage your little tricksters to accept—and their treaters to provide—other kinds of treats like small toys, glow sticks, or other items that count as treasure to children (be sure they're age-appropriate, though).
Halloween is a great time of family fun, and candy may always play a prominent role in the merriment. Just be sure to practice moderation with sweet Halloween treats to avoid dental problems down the road.
If you would like more information about how to manage your family's sugar consumption for optimum dental health, please contact us or schedule a consultation. To learn more, read the Dear Doctor magazine articles “The Bitter Truth About Sugar” and “Nutrition & Oral Health.”
Although dental care has made incredible advances over the last century, the underlying approach to treating tooth decay has changed little. Today’s dentists treat a decayed tooth in much the same way as their counterparts from the early 20th Century: remove all decayed structure, prepare the tooth and fill the cavity.
Dentists still use that approach not only because of its effectiveness, but also because no other alternative has emerged to match it. But that may change in the not-too-distant future according to recent research.
A research team at Kings College, London has found that a drug called Tideglusib, used for treating Alzheimer’s disease, appears to also stimulate teeth to regrow some of its structure. The drug seemed to cause stem cells to produce dentin, one of the tooth’s main structural layers.
During experimentation, the researchers drilled holes in mouse teeth. They then placed within the holes tiny sponges soaked with Tideglusib. They found that within a matter of weeks the holes had filled with dentin produced by the teeth themselves.
Dentin regeneration isn’t a new phenomenon, but other occurrences of regrowth have only produced it in tiny amounts. The Kings College research, though, gives rise to the hope that stem cell stimulation could produce dentin on a much larger scale. If that proves out, our teeth may be able to create restorations by “filling themselves” that are much more durable and with possibly fewer complications.
As with any medical breakthrough, the practical application for this new discovery may be several years away. But because the medication responsible for dentin regeneration in these experiments with mouse teeth is already available and in use, the process toward an application with dental patients could be relatively short.
If so, a new biological approach to treating tooth decay may one day replace the time-tested filling method we currently use. One day, you won’t need a filling from a dentist—your teeth may do it for you.
Most dental problems arise from tooth decay and periodontal (gum) disease. But they aren't the only source of danger to your teeth—gastroesophageal reflux disease (GERD) could be just as damaging to your tooth enamel as dental disease.
GERD usually occurs when a ring of muscles at the top of the stomach weaken, allowing stomach acid to enter the esophagus. This resulting acid reflux can make life unpleasant and pose potential health dangers—over time it can damage the lining of the esophagus and cause ulcers and pre-cancerous cells. It can also erode tooth enamel if acid enters the mouth and raises its level of acidity.
This can be a problem because acid can soften and dissolve the mineral content of tooth enamel. This is the primary cause of tooth decay as acid produced by oral bacteria attack enamel. The more bacteria present, often thriving in dental plaque, the higher the potential levels of acid that can damage enamel. Stomach acid, which is strong enough to break down food, can cause similar harm to enamel if it causes higher than normal acidity in the mouth.
There are some things you can do to protect your teeth if you have GERD, namely manage your GERD symptoms with lifestyle changes and medication. You may need to avoid alcohol, caffeine or heavily acidic or spicy foods, all known to aggravate GERD symptoms. Quitting smoking and avoiding late night meals might also ease indigestion. And your doctor may recommend over-the-counter or prescription drugs to help control your acid reflux.
You can also boost your teeth's enamel health by practicing daily brushing and flossing—but not right after a reflux episode. The enamel could be softened, so brushing can potentially remove tiny particles of mineral content. Instead, rinse with water mixed with or without a little baking soda to help neutralize acid and wait about an hour—this will give saliva, the mouth's natural acid neutralizer, time to restore the mouth's normal pH level.
And be sure you're using a fluoride toothpaste. Fluoride strengthens enamel—in fact, your dentist may recommend topical fluoride applications to boost the effect.
These and other tips can help minimize the effects of GERD on your dental health. With an ounce of prevention, you can keep it from permanently damaging your teeth.
If you would like more information on managing your dental health with GERD, please contact us or schedule an appointment for a consultation. You can also learn more about this topic by reading the Dear Doctor magazine article “GERD and Oral Health.”
“Cut down on sweets, especially between meals” is perhaps one of the least popular words of advice we dentists regularly give. We’re not trying to be killjoys, but the facts are undeniable: both the amount and frequency of sugar consumption contributes to tooth decay. Our concern isn’t the naturally occurring sugars in fruits, vegetables, grains or dairy products, but rather refined or “free” sugars added to foods to sweeten them.
The World Health Organization and the U.S. Food and Drug Administration both advise consuming no more than 50 grams (about ten teaspoons) of sugar a day. Unfortunately, our nation’s average per person is much higher: we annually consume around 140 pounds per capita of refined sugars like table sugar or high fructose corn syrup, more than three times the recommended amount. Soft drinks are the single largest source of these in our diets — Americans drink an average of 52 gallons every year.
The connection between sugar and tooth decay begins with bacteria that ferments sugar present in the mouth after eating. This creates high levels of acid, which causes the mineral content of tooth enamel to soften and erode (a process called demineralization) and makes the teeth more susceptible to decay. Saliva naturally neutralizes acid, but it takes about thirty minutes to bring the mouth’s pH to a normal level. Saliva can’t keep up if sugars are continually present from constant snacking or sipping on soft drinks for long periods.
You can reduce the sugar-decay connection with a few dietary changes: limit your intake of sugar-added foods and beverages to no more than recommended levels; consume sweets and soft drinks only at meal times; replace sugar-added foods with fresh fruits and vegetables and foods that inhibit the fermentation process (like cheese or black and green teas); and consider using mint or chewing gum products sweetened with xylitol, a natural alcohol-based sugar that inhibits bacterial growth.
Last but not least, practice good oral hygiene with daily brushing and flossing, along with regular office cleanings and checkups. These practices, along with limits on refined sugar in your diet, will go a long way toward keeping your teeth and mouth healthy and cavity-free.
If you would like more information on the relationship of sugar and dental disease, please contact us or schedule an appointment for a consultation. You can also learn more about this topic by reading the Dear Doctor magazine article “Nutrition & Oral Health.”
For over a century dentists treated tooth decay by removing both diseased portions of the tooth and healthy structure deemed at risk for future decay. In the 1970s, though, a new approach emerged, known as Minimally Invasive Dentistry (MID). This practice protocol attempts to preserve as much of the healthy structure as possible.
Before MID, dentists followed a decay treatment protocol developed in the 19th Century. A part of this became known as extension for prevention calling for dentists to remove healthy structure considered vulnerable to decay. Besides reducing the tooth's volume, this practice also resulted in, by today's standards, larger than necessary fillings.
It was thought that removing this additional material would make it easier to clean bacterial plaque, the source of decay, but later, research showed the practice couldn't guarantee the teeth wouldn't be reinfected.
Since then we've learned a lot more about teeth and have developed new ways to detect decay at earlier stages. X-ray imaging, for example, has transitioned largely from film to digital technology, providing more detailed images at greater magnification. This, along with laser fluorescence and infrared cameras, has made it easier to detect the first tiny stages of decay.
We can also limit tooth decay damage by boosting enamel strength with fluoride applications and sealants or reducing decay-causing bacteria with anti-bacterial rinses. We've also seen advancement in techniques like air abrasion that remove decayed tooth material while leaving more healthy structure intact better than using a traditional dental drill.
Restoring teeth after treatment has also improved. While dental metal amalgam is still used for some fillings, the main choice is now composite resin. These new tooth-colored dental materials require less tooth preparation (and thus less material loss) and bond well to the remaining structure, resulting in a stronger tooth.
Following a MID protocol leads to less intervention and less time in the dentist's chair. It also means preserving more of a natural tooth, an important aim in promoting long-lasting dental health.