Posts for tag: tooth decay
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.”
Each year thousands of people develop sinus infections from various causes. But there's one cause for sinusitis that might surprise you—tooth decay.
Tooth decay begins when the acid produced by oral bacteria erodes a tooth's enamel protection to create a small hole or cavity. Left untreated, the infection can move into the inner pulp of the tooth and tiny passageways leading to the roots called root canals. The decay can then infect and break down the structure of the supporting jawbone.
This could affect the sinus cavities, hollow air-filled spaces in the upper portion of the face. The maxillary sinus in particular sits behind the cheek bones just above the upper jaw. Tooth roots, particularly in back teeth, can extend quite near or even poke through the floor of the maxillary sinus.
If decay affects these roots, the bone beneath this floor may begin to break down and allow the bacterial infection to enter the sinus. We call this particular kind of sinus infection maxillary sinusitis of endodontic origin (MSEO), "endodontic" referring to the interior structure of teeth.
While advanced decay can show symptoms like pain or sensitivity with certain hot or cold foods, it's also possible to have it and not know it directly. But a recurring sinus infection could be an indirect indication that the root of your suffering is a deeply decayed tooth. Treating the sinus infection with antibiotics won't cure this underlying dental problem. For that you'll need to see a dentist or an endodontist, a specialist for interior tooth issues.
The most common way to treat deep tooth decay is with root canal therapy. In this procedure, the dentist enters the decayed tooth's pulp (nerve chamber) and root canals and removes the diseased tissue. They will then fill the empty pulp and root canals with a special filling and seal the tooth to prevent future infection. The procedure stops the infection and saves the tooth—and if you have MSEO, it eliminates the cause of the sinus infection.
So, if you're suffering from chronic sinus infections, you might talk with your dentist about the possibility of a tooth infection. A thorough examination might reveal a decayed tooth in need of treatment.
Over the last century effectively treating a decayed tooth has often required removing any decayed structure with drilling and then filling the remaining cavity. While this approach does save teeth that might otherwise be lost, it can also result in a fair amount of healthy structure removed in the process.
But continuing advances in dentistry are now making possible a new approach to tooth decay treatment that preserves as much of the healthy portions of tooth as possible. This new way is often referred to as minimally invasive dentistry (MID).
The primary goal of MID treatment is to intercept and treat decay as early as possible to minimize tooth damage. It begins with helping patients identify their own individual risk factors for decay such as the presence of disease-causing bacteria, the adequacy of their saliva flow, or their lifestyle and dietary habits. We then recommend changes or preventive measures to reduce those risks.
The next step in MID is using various diagnostic technologies to find decay as early as possible. X-rays continue to play a major role, but dentists are also using dental microscopy to magnify the earliest forms of decay. Many also utilize laser fluorescence, infrared photography and optical scanning to further “see” decay difficult to detect with the naked eye.
In regard to treatments, MID adopts the adage “less is more.” If caught early enough, we can encourage the re-mineralization of enamel that acid has eroded with CPP-ACP, a substance acquired from milk, or strengthen teeth with topical fluoride applications. Instead of the dental drill, many dentists now turn to air abrasion for decay removal, equipment that emits a fine stream of abrasive particles that harms less healthy structure than a drill.
And if lasers continue to develop at their current pace, we’ll be able to use this technology to perform much more precise decay treatment than possible with manual instruments. As a result, we’ll be able to treat decayed teeth with less invasive means to preserve as much healthy structure as possible.
As these and other developments continue, MID promises a bright future for preventing and treating tooth decay. As a result, there’ll be less tooth structure loss and more attractive and healthy smiles.
If you would like more information on the latest techniques for 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 “Minimally Invasive Dentistry.”
Tooth decay is one of the world's most prevalent diseases — and one of the most preventable. We've known the primary prevention recipe for decades: brushing and flossing daily, and dental cleanings and checkups at least twice a year.
But consistent oral hygiene isn't enough — you should also pay attention to your overall health, diet and lifestyle habits. Each of these areas in their own way can contribute to abnormally high mouth acid, which can soften enamel and open the door to tooth decay.
Lower saliva production is one such problem that can arise due to issues with your health. Among its many properties, saliva neutralizes acid and helps maintain the mouth's optimum neutral pH level. But some health conditions or medications can reduce saliva flow: less saliva means less neutralization and chronic acidity.
You can also inhibit saliva flow with one particular lifestyle habit — smoking. Tobacco smoke can damage salivary glands. Nicotine, tobacco's active ingredient, constricts blood vessels, leading to fewer antibodies delivered by the blood stream to mouth tissues to fight disease.
A diet heavy on acidic foods and beverages can also increase mouth acidity. It's not only what you're eating or drinking — it's also how often. If you're constantly snacking or sipping on something acidic, saliva doesn't have a chance to complete the neutralizing process.
In addition to your daily oral hygiene practice, you should also make changes in these other areas to further lower your risk of tooth decay. If you're taking medications that cause dry mouth, see if your doctor can prescribe a different one or try using products that stimulate saliva. Quit smoking, of course, as much for your mouth as for the rest of your health.
On the dietary front, reduce your intake of acidic foods and beverages, especially sodas, energy or sports drinks. If you've counted on the latter for hydration, switch to water instead. And limit acidic foods to mealtime rather than throughout the day.
It's all about maintaining a healthy pH level in your mouth. Doing so along with good oral hygiene will help you better avoid destructive tooth decay.
If you would like more information on preventing 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: How to Assess Your Risk.”
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.