Posts for: December, 2015
Braces are a common part of many teenagers’ life experience — but not every bite problem is alike. Sometimes, there’s a need for accurately moving only a few teeth while making sure others don’t. This is where Temporary Anchorage Devices (TADs) can help streamline that effort and even reduce treatment time.
Orthodontics wouldn’t work at all if we didn’t already have a natural tooth movement mechanism in our mouths. That ability rests with the periodontal ligament, a tough, elastic tissue between the teeth and the bone that firmly attaches to both with tiny collagen fibers. Though quite secure in holding teeth in place, the ligament attachment also allows teeth to move in response to changes in the bone and jaw structure.
Braces are made of brackets cemented to tooth surfaces through which tiny wires pass. The wires are anchored, usually to other teeth or groups of teeth, and tightened to apply pressure against the other teeth. The ligament does the rest: as the teeth are “pressured” to move in a certain direction, new bone, ligament and an anchoring substance known as cementum forms behind it to secure the tooth in its new position.
The anchorage teeth are not intended to move. In some situations, though, it’s difficult to keep them from not moving — much like trying to keep a boat anchor from not dragging through sand on the sea bottom. TADs help alleviate this problem: it’s a mini-screw or mini-implant that’s temporarily placed in the jawbone to which the tension wire can be secured. They’re placed in the best positions for isolating the teeth that need to be moved without compromising the position of nearby teeth that don’t.
With the site numbed with a local anesthetic, we install the TAD through the gum tissue into the bone with a special device; their screw-shaped design holds them securely in place. They’re then removed when the orthodontic treatment is complete.
While a simple procedure, precise placement requires collaboration between the orthodontist and the oral surgeon or dentist who installs them. They also need special attention during daily hygiene to keep them clean. Still, with difficult bite situations they can help bring about the right outcome — a straight and beautiful smile.
If you would like more information on orthodontic treatment 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 “What are TADs?”
Even though a child’s primary (“baby”) teeth eventually give way, it’s still important to treat them if they become decayed. Primary teeth serve as guides for the emerging permanent teeth — if they’re lost prematurely, the permanent tooth may come in misaligned.
If the decay, however, affects the tooth’s inner pulp, it poses complications. A similarly decayed adult tooth would be treated with a root canal in which all the pulp tissue, including nerve fibers and blood vessels, are removed before filling and sealing. Primary teeth, however, are more dependent on these nerves and blood vessels, and conventional filling materials can impede the tooth’s natural loss process. It’s better to use more conservative treatments with primary teeth depending on the degree of decay and how much of the pulp may be affected.
If the decay is near or just at the pulp, it’s possible to use an indirect pulp treatment to remove as much of the softer decay as possible while leaving harder remnants in place: this will help keep the pulp from exposure. This is then followed with an antibacterial agent and a filling to seal the tooth.
If the pulp is partially exposed but doesn’t appear infected, a technique called direct pulp capping could be used to cover or “cap” the exposed pulp with filling material, which creates a protective barrier against decay. If decay in a portion of the pulp is present, a pulpotomy can be performed to remove the infected pulp portion. It’s important with a pulpotomy to minimize the spread of further infection by appropriately dressing the wound and sealing the tooth during and after the procedure.
A pulpectomy to completely remove pulp tissue may be necessary if in the worst case scenario the pulp is completely infected. While this closely resembles a traditional root canal treatment, we must use sealant material that can be absorbed by the body. Using other sealants could inhibit the natural process when the primary tooth’s roots begin to dissolve (resorb) to allow it to eventually give way.
These all may seem like extraordinary efforts to save a tooth with such a short lifespan. But by giving primary teeth a second chance, their permanent successors will have a better chance of future good health.
If you would like more information on treating decay in primary teeth, 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 “Root Canal Treatment for Children’s Teeth.”
For major-league slugger Giancarlo Stanton, 2014 was a record-breaking year. After the baseball season ended, he signed a 13-year, $325 million contract with the Miami Marlins — the biggest deal in sports history. But earlier that same year, Stanton suffered one of the worst accidents in baseball: He was hit in the face by an 88-mph fastball, sustaining multiple fractures, lacerations, and extensive dental damage.
After the accident, Stanton didn’t play for the remainder of the season. But now he’s back in Spring Training… and he’s got a not-so-secret weapon to help protect him against another injury: A custom-made face guard designed to absorb impacts and keep him from suffering further trauma.
As sports fans, we’re glad that Stanton was able to overcome his injury and get back in the game. As dentists, we’d like to remind you that you don’t have to be a major-league player to feel the harmful effects of a sports injury — and you don’t have to look far to find a way to protect yourself. In fact, you can get a custom-made mouthguard right here at the dental office.
Mouthguards have a long tradition in sports like football, boxing, and hockey. But did you know that far more Americans are injured every year playing “non-collision” sports like basketball, baseball — and even bicycling? And it doesn’t take a major-league fastball to cause a dental injury: The highest incidence of sports-related dental injuries occurs in 15-to-18-year-old males. In fact, about one-third of all dental injuries among children stem from various types of sports activities. These injuries may result in countless hours being lost from school and work, and cost significant sums for treatment and restoration.
Mouthguards have a proven track record in reducing dental and facial injuries: They are capable of absorbing the energy of a blow to the mouth, and dissipating it in a way that prevents damage to facial structures and teeth. But not all mouthguards are created equal: Custom-fabricated mouthguards, which are produced from an exact model of your mouth made right here in the dental office, offer by far the best protection. They fit better and safeguard the teeth more fully than any off-the-shelf or “boil-and-bite” type can. Plus, they’re more comfortable to wear. And let’s face it: No mouth guard can protect your teeth if you don’t wear it.
What’s more, some recent studies indicate that custom-made mouthguards may offer significant protection against concussion. An increasing awareness of the dangers that concussion may pose to athletes is one more reason why we recommend custom-made mouthguards to active people and their families.
To get his face guard, Giancarlo Stanton reportedly went to a specialist sporting-goods manufacturer in Illinois, and paid around $1,000. But you can get a custom-made mouthguard for yourself or your loved ones right at our office for a fraction of that price. And the peace of mind it can give you is… priceless.
If you have questions about custom-made mouthguards, please contact us or schedule an appointment for a consultation. You can learn more by reading the Dear Doctor magazine articles “An Introduction to Sports Injuries & Dentistry” and “Athletic Mouthguards.”
While oral hygiene, a nutritious diet and regular dental visits are all crucial to long-term oral health, these efforts complement what your body already does to keep your mouth healthy. One of the major players in this function is saliva.
Produced by hundreds of glands located throughout the mouth, saliva does much more than help you swallow and wash away food. As you chew, an enzyme in saliva known as amylase breaks down starches in your food to make it easier to digest in the stomach. Saliva also contains antibodies, similar to what’s in tears, which can fight bacteria and other disease-causing organisms.
Perhaps its most important function, though, is its ability to protect and maintain healthy tooth enamel. The strongest substance in the body, enamel nevertheless has one primary enemy — the acid found in certain foods or as a byproduct of bacteria feeding on sugar and other carbohydrates.
When the ideally neutral pH level of the mouth becomes too acidic (nearly every time you eat), minerals in the enamel begin to soften and dissolve. The increased saliva flow when we eat floods the mouth with buffering agents that neutralize the acid and restore the mouth’s normal pH level. Not only does saliva stop demineralization, but it also restores a good bit of the enamel’s mineral content.
In recent years, a new role for saliva has begun to emerge as a means to diagnose disease. Like blood, urine and other bodily fluids, saliva contains molecules that serve as biological markers for disease. Given the right equipment, saliva has the potential to indicate early signs of cancer (including oral), diabetes and other systemic conditions. As the means to examine saliva for these markers increases it promises to be easier and less expensive to collect and sample than blood, while reducing the chances of transmitting bloodborne diseases to healthcare workers.
It’s a lot to consider with this fluid that you hardly notice, except when it isn’t there. Saliva is proof that our efforts at keeping our mouths healthy cooperate and depend on our bodies’ amazing systems.
If you would like more information on saliva and other ways your body maintains a healthy mouth, 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 “Saliva.”
Recently, a number of new filling materials that mimic tooth color have come into popular use and, so far, have proven more durable than past versions. Even so, the traditional metal-based dental amalgam remains a viable choice, especially for less visible back teeth and their higher biting forces.
Used for more than a century, dental amalgam is a metal alloy composed of silver, mercury, tin and copper. The mixture is carefully proportioned so that potentially hazardous mercury is kept to a minimum and bonded with the other metals. Amalgam in its initial form is quite pliable so that it can be molded into the tooth structure under repair. Afterward it sets hard to form a durable filling that can withstand the daily force generated when we bite and chew food.
Besides durability, dental amalgam rarely causes an allergic reaction in a patient, and it’s easy for trained dentists to apply. On the downside, however, it can cause temporary temperature sensitivity in the tooth just after filling, and the tooth itself may require some removal of healthy structure to help keep the filling in place. And from an aesthetic point of view, its metallic appearance is considered unattractive especially for front teeth.
The presence of mercury in amalgam has also raised concerns over the years. “Free” mercury — atoms that escape through vapor emitted by the metal — can enter the bloodstream and potentially harm the nervous system. But after extensive study and research, U.S. and international health bodies including the American Dental Association have concluded any free mercury released during chewing is extremely low and well below any harmful levels. These studies have also found no ill effects in either children or adults with dental amalgam fillings.
Deciding on the type of filling material to use — dental amalgam or a newer composite resin, resin ionomer or glass ionomer — depends on a number of factors including the location of the teeth to be filled, the extent of decay and your personal preferences. Taking these into account, we’ll be happy to discuss which type of filling will suit you best for repairing decayed teeth.
If you would like more information on filling material options including dental amalgam, 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 “Silver Fillings — Safe or Unsafe?”