Posts for: June, 2020
The fast-paced world of sports and entertainment isn’t all glitz and glamour. These high-profile industries create a unique kind of emotional and mental stress on celebrities. For many of them, a way to “let off steam” is an oral habit known as teeth grinding.
Teeth grinding is an involuntary habit in which a person bites and grinds their teeth outside of normal activities like eating or speaking. It’s common among young children, who usually grow out of it, but it can also affect adults, especially those who deal with chronic stress. If not addressed, teeth grinding can eventually wear down teeth, damage gum attachments or fracture weaker teeth. It can even contribute to tooth loss.
A number of well-known personalities in the spotlight struggle with teeth grinding, including actress Vivica Fox, model and TV host Chrissy Teigen, and star athletes Tara Lipinski and Milos Raonic of ice skating and tennis fame, respectively. The habit represents not only a threat to their dental health, but also to one of their most important career assets: an attractive and inviting smile. Fortunately, though, they each use a similar device to manage their teeth grinding.
Besides seeking ways to better manage life stress, individuals with a teeth-grinding habit can protect their teeth with a custom mouthguard from their dentist. Made of slick plastic, this device is worn over the teeth, usually while sleeping, to minimize dental damage. During a grinding episode, the teeth can’t make contact with each other due to the guard’s glossy surface—they simply slide away from each other. This reduces the biting forces and eliminates the potential for wear, the main sources of dental damage.
Chrissy Teigen, co-host with LL Cool J on the game show Lip Sync Battle, wears her custom-made guard regularly at night. She even showed off her guard to her fans once during a selfie-video posted on Snapchat and Twitter. Vivica Fox, best known for her role in Independence Day, also wears her guard at night, and for an additional reason: The guard helps protect her porcelain veneers, which could be damaged if they encounter too much biting force.
Mouthguards are a prominent part of sports, usually to protect the teeth and gums from injury. Some athletes, though, wear them because of their teeth grinding habit. Tara Lipinski, world renowned figure skater and media personality, keeps hers on hand to wear at night even when she travels. And Milos Raonic, one of the world’s top professional tennis players, wears his during matches—the heat of competition tends to trigger his own teeth-grinding habit.
These kinds of mouthguards aren’t exclusive to celebrities. If you or a family member contends with this bothersome habit, we may be able to create a custom mouthguard for you. It won’t stop teeth grinding, but it could help protect your teeth—and your smile.
If you would like more information about protecting your smile, please contact us or schedule a consultation. To learn more, read the Dear Doctor magazine articles “Teeth Grinding” and “When Children Grind Their Teeth.”
Like the rest of healthcare, antibiotics have transformed dentistry. Advanced oral infections that once eluded successful treatment are routinely stopped with the use of these “wonder drugs.” But their overuse over the years has given rise to dangerous “superbugs” resistant to many antibiotics.
Antibiotics are one of the 20th Century's most significant healthcare achievements. Drugs like penicillin played a major role ending the global threat of tuberculosis, cholera and bacterial meningitis. Over the last few decades, more antibiotics have been developed to defend against an even wider array of bacterial dangers.
But along the way doctors and dentists began prescribing antibiotics for all manner of illnesses including viral infections like colds or flu for which they're less effective. They've also been increasingly used as a preventive measure, including inclusion in animal feed to fight disease.
But our tiny biological nemeses are adaptable. As bacterial strains come in contact with greater amounts of antibiotics, individual bacterium that survive transmit their resistance to subsequent generations. This can produce new strains like Staphylococcus aureus (MRSA) that are resistant to methicillin and other common antibiotics that once contained them.
There's deep concern that these new resistant strains, often recent incarnations of old diseases once thought defeated, will lead to higher rates of sickness and death. Increasing resistance could also make common procedures like those performed by dentists and oral surgeons, much riskier to undertake.
To combat this, pharmaceutical companies are racing to create new drugs to compensate. Recently, they've received an encouraging sign of hope in this battle from an unlikely source: viruses. Researchers in Tel Aviv, Israel have discovered an antagonistic protein to bacteria among a group of viruses called bacteriophages. The protein, injected into a bacterium, commandeers the cell's DNA function to aid virus reproduction, which kills the host.
In the words of one researcher, this makes these particular “enemy of our enemy” viruses our “friend.” Although the discovery is still a long way from practical use in antibiotics, harnessing it in future drug versions could help pack a greater punch against resistant bacteria.
In the meantime, providers and patients alike must practice and advocate for stricter protocols regarding the use of antibiotics. The viability of tomorrow's healthcare is on the line.
Periodontal (gum) disease often involves more than gum inflammation. The real danger is what this bacterial infection may be doing to tissues beneath the gum line—including tooth roots and supporting bone.
Gum disease can do extensive damage to the forked areas where the roots separate from the main tooth body. If one of these areas, known as a furcation, becomes infected, the associated bone may begin to diminish. And you may not even know it's happening.
Fortunately, we may be able to detect a furcation involvement using x-rays and tactile (touch) probing. The findings from our examination will not only verify a furcation involvement exists, but also how extensive it is according to a formal classification system that dentists use for planning further treatment.
A Class I involvement under this system signifies the beginning of bone loss, usually a slight groove in the bone. Class II signifies two or more millimeters of bone loss. Class III, also called a “through and through,” represents bone loss that extends from one side of the root to the other.
The class of involvement will guide how we treat it. Obviously, the lower the class, the less extensive that treatment will be. That's why regular dental checkups or appointments at the first sign of gum problems are a must.
The first-line treatment for furcation involvements is much the same as for gum disease in general: We manually remove bacterial plaque, the main source of infection, from the root surfaces using hand instruments and ultrasonic equipment. This is often followed by localized antibiotics to further disinfect the area and stymie the further growth of the furcation involvement.
We also want to foster the regrowth of lost tissue, if at all possible. Classes II and III involvements may present a challenge in this regard, ultimately requiring grafting surgery to stimulate tissue regeneration.
The best approach by far is to prevent gum disease, the ultimate cause for a furcation involvement. You can reduce your chances of gum disease by brushing and flossing daily to remove disease-causing plaque. Regular dental cleanings and checkups, at least every six months, help round out this prevention strategy.
A furcation involvement could ultimately endanger a tooth's survival. We can stop that from happening—but we'll have to act promptly to achieve the best results.
If you would like more information on treating gum 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 “What are Furcations?”