Posts for tag: tooth decay
The amount of sugar your child consumes has a huge bearing on their tooth decay risk: The more they take in, the higher it is for this destructive disease. That's why you should moderate their intake of the usual suspects: sodas, candies and other sugar-laden foods. But you should also put the brakes on something considered wholesome and nutritious: fruit juices. And that includes all natural juice with no sugar added.
Sugar in any form is a prime food source for decay-causing bacteria. As bacteria consume leftover sugar in the mouth, they produce acid as a byproduct. With an ample source of sugar, they also multiply—and this in turn increases their acid production. Acid at these high levels can soften and erode tooth enamel, which leads to tooth decay and cavities.
Limiting or even excluding sugar-added foods and snacks can help minimize your children's risk for tooth decay. For designated snack times, substitute items like carrot sticks or even popcorn with a dash of spice rather than sweet snacks and candies. If you do allow occasional sweet foods, limit those to mealtimes when saliva, which neutralizes acid, is most active in the mouth.
As you manage sugary items your children may eat or drink, the American Academy of Pediatrics also advises you to moderate their consumption of fruit juices, including all-natural brands with no added sugar. Their recommended limits on daily juice drinking depend on a child's age and overall health:
- Infants (less than one year) or any children with abnormal weight gain: no juice at all;
- Toddlers (ages 1-3): 4 ounces or less per day;
- Younger children (4-6): 6 ounces or less per day; and
- Older children (7-18): 8 ounces (1 cup) or less per day.
As for the rest of your children's daily hydration needs, the most dental-friendly liquid for any of us is plain water. For older school-age children, low- or non-fat milk is also a sound choice.
Preventing tooth decay in your children is a continuous task that requires all of us, parents and dental providers, to do our part. Besides daily hygiene (brushing and flossing) and regular dental visits, keeping sugar at bay—including with juices—is an important part of that effort.
The basics for treating tooth decay have changed little since the father of modern dentistry Dr. G.V. Black developed them in the early 20th Century. Even though technical advances have streamlined treatment, our objectives are the same: remove any decayed material, prepare the cavity and then fill it.
This approach has endured because it works—dentists practicing it have preserved billions of teeth. But it has had one principle drawback: we often lose healthy tooth structure while removing decay. Although we preserve the tooth, its overall structure may be weaker.
But thanks to recent diagnostic and treatment advances we’re now preserving more of the tooth structure during treatment than ever before. On the diagnostic front enhanced x-ray technology and new magnification techniques are helping us find decay earlier when there’s less damaged material to remove and less risk to healthy structure.
Treating cavities has likewise improved with the increased use of air abrasion, an alternative to drilling. Emitting a concentrated stream of fine abrasive particles, air abrasion is mostly limited to treating small cavities. Even so, dentists using it say they’re removing less healthy tooth structure than with drilling.
While these current advances have already had a noticeable impact on decay treatment, there’s more to come. One in particular could dwarf every other advance with its impact: a tooth repairing itself through dentin regeneration.
This futuristic idea stems from a discovery by researchers at King’s College, London experimenting with Tideglusib, a medication for treating Alzheimer’s disease. The researchers placed tiny sponges soaked with the drug into holes drilled into mouse teeth. After a few weeks the holes had filled with dentin, produced by the teeth themselves.
Dentin regeneration isn’t new, but methods to date haven’t been able to produce enough dentin to repair a typical cavity. Tideglusib has proven more promising, and it’s already being used in clinical trials. If its development continues to progress, patients’ teeth may one day repair their own cavities without a filling.
Dr. Black’s enduring concepts continue to define tooth decay treatment. But developments now and on the horizon are transforming how we treat this disease in ways the father of modern dentistry couldn’t imagine.
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.
Other than the common cold, tooth decay is the most prevalent disease in the world. And while a cavity or two may seem like a minor matter, tooth decay’s full destructive potential is anything but trivial. Without proper prevention and treatment, tooth decay can cause pain, tooth loss and, in rare cases, even death.
This common disease begins with bacteria in the mouth. Though these microscopic organisms’ presence is completely normal and at times beneficial, certain strains cause problems: they consume left over carbohydrates in the mouth like sugar and produce acid as a byproduct. The higher the levels of bacteria the higher the amount of acid, which disrupts the mouth’s normal neutral pH.
This is a problem because acid is the primary enemy of enamel, the teeth’s hard protective outer shell. Acid causes enamel to lose its mineral content (de-mineralization), eventually producing cavities. Saliva neutralizes acid that arises normally after we eat, but if the levels are too high for too long this process can be overwhelmed. The longer the enamel is exposed to acid, the more it softens and dissolves.
While tooth decay is a global epidemic, dental advances of the last century have made it highly preventable. The foundation for prevention is fluoride in toothpaste and effective oral hygiene — daily brushing and flossing to removing plaque, a thin film of food remnant on teeth that’s a feeding ground for bacteria, along with regular dental visits for more thorough cleaning and examination. This regular regimen should begin in infancy when teeth first appear in the mouth. For children especially, further prevention measures in the form of sealants or topical fluoride applications performed in the dentist office can provide added protection for those at higher risk.
You can also help your preventive measures by limiting sugar or other carbohydrates in your family’s diet, and eating more fresh vegetables, fruit and dairy products, especially as snacks. Doing so reduces food sources for bacteria, which will lower their multiplication and subsequently the amount of acid produced.
In this day and age, tooth decay isn’t a given. Keeping it at bay, though, requires a personal commitment to effective hygiene, lifestyle choices and regular dental care. Doing these things will help ensure you and your family’s teeth remain free from this all too common disease.
If you would like more information on preventing and treating tooth decay, 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 “Tooth Decay.”
We’ve been treating one of your decay-prone teeth for some time with one filling after another. Each incident required a little more removal of decayed tooth material until now there isn’t enough structure to support another filling.
We could remove the tooth and replace it with a bridge or a dental implant, both viable restoration options. But keeping the tooth if possible would be more beneficial in the long-run for your gums, bone and remaining teeth. If it still has a healthy and stable root, it’s possible to permanently cover or “cap” the tooth with a life-like crown.
Crowns have been used for decades: the first were mainly composed of metal like gold or silver and later dental porcelain, a ceramic material that could be molded, shaped and oven-fired to resemble a real tooth. The earliest porcelains, though, were brittle, so a hybrid with a metal interior for strength and a fused exterior porcelain layer for appearance came into prominence.
Today, advances in materials have led to all-porcelain crowns strong enough to withstand biting forces. While the metal-porcelain hybrid still account for about 40% of crowns installed annually, the all-porcelain types are steadily growing in popularity.
Regardless of the type, though, the process for fitting any crown is relatively the same. The first step is to reshape the affected tooth so that the future crown will fit over it, followed by an impression mold of the tooth a dental technician will use to form a custom crown. Once the new crown has been prepared, we then permanently bond it to the tooth.
With a crown, you’ll be able to enjoy normal function and have a tooth that looks as healthy and normal as its neighbors. Be aware, though, that your underlying tooth is still subject to decay — so diligent, daily hygiene and regular dental visits are a must. With proper care your newly crowned tooth can continue to serve you and your smile for many years to come.
If you would like more information on dental restoration options, 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 “Crowns & Bridgework.”