Dental Arts of Wyomissing Blog
Posts for tag: orthodontics
There are an assortment of techniques and treatments in an orthodontist's toolkit, braces being the most common and best known. Of course, there wouldn't be any tools at all if teeth couldn't move naturally.
Teeth aren't directly connected to the jawbone. An elastic tissue called the periodontal ligament lies between each one, with tiny fibers attaching to the tooth on one side and to the bone on the other. The ligament's elasticity and other qualities allow micro-movements of the teeth as we bite.
The ligament can also adapt to changes in the mouth and teeth by allowing the teeth to move to different positions. That's the basic concept behind braces: we thread a thin wire through brackets attached to the teeth, which we then attach to anchor points (usually back teeth not intended to move) and apply tension to it. Gradually over time, the target teeth move.
But what if your malocclusion (poor bite) is more complicated or the back teeth can't supply enough anchorage for moving the intended teeth? That's where we take advantage of other sources of anchorage.
One such source is the patient's skull, which we can make use of through special headgear worn a few hours a day. The device consists of a strap under tension that runs around the back of the head or neck to a wire housing attached to brackets on the target teeth. If you want to “pull” the teeth forward, the strap would come over the chin, forehead or a combination of both.
We may sometimes want to isolate some teeth to move without moving nearby teeth, such as moving front teeth backward to close a space without affecting teeth further to the rear. We can create a separate anchor point in the jaw with a TAD or temporary anchorage device.
TADs are tiny screws made of stainless steel inserted temporarily into the bone. We loop an elastic band over the TAD on one end and to a bracket or tension wire attached to the target teeth on the other. When we've achieved the teeth's new position we can easily remove the TAD from the bone.
These various tools make it possible to correct difficult or complex malocclusions. They may not always look attractive, but they'll help ensure the final result is.
If you would like more information on available orthodontic treatments, 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 “Orthodontic Headgear & Other Anchorage Appliances.”
Orthodontics relies on certain mechanics in the mouth to move teeth to better positions. As the specialty has advanced, we've become ever more precise in moving teeth with braces, the “workhorse” of orthodontics, and other specialized appliances and techniques.
But although cooperating effectively with the mouth's natural ability for tooth movement is crucial for success, there's another aspect to consider if that success will be long-term: the growth and development of oral and facial structure. And not just development during childhood and adolescence: indeed, facial structure continues to change throughout a lifetime, including the senior years. Research has shown that although the rate of growth slows over time, it doesn't stop even for someone 80 years or older.
Our emerging understanding in this area has had an important impact on how and when we perform orthodontic treatment. As we develop a treatment strategy for an individual patient we consider not only the immediate outcome of a treatment, but also how it may change their facial appearance in the future. By taking continuing facial growth into consideration, we're more likely to achieve a new smile appearance that remains attractive later in life.
A key factor is to be sure we're initiating treatments at appropriate ages. We may detect developing bite problems as early as age 6, which might prompt preventive treatment at that time to diminish or even eliminate the problem. But it may also be prudent to wait on full-scale orthodontic treatment until late childhood or puberty. Furthermore, some form of orthodontic treatment might need to continue into early adulthood to ensure the most optimal outcome.
By taking a longer view of the treatment process, we're better able to work within the natural growth and development taking place now and in the future. As a result, a person is more likely to enjoy an attractive and youthful appearance even in their later years.
If you would like more information on aging factors for cosmetic enhancement, 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 “Understanding Aging Makes Beauty Timeless.”
What makes an attractive smile? Of course, shiny, straight and defect-free teeth are a big factor. But there’s another equally important element: all your teeth have come in.
Sometimes, though, they don’t: one or more teeth may remain up in the gums, a condition known as impaction. And if they’re in the front like the upper canines (the pointed teeth on either side of the front four incisors) your smile’s natural balance and symmetry can suffer.
Impaction usually happens due to lack of space on a small jaw. Previously erupted teeth crowd into the space of teeth yet to come in, preventing them from doing so. As a result the latter remain hidden within the gums.
While impaction can interfere with the smile appearance, it can cause health problems too. Impacted teeth are at higher risk for abscesses (localized areas of infection) and can damage the roots of other teeth they may be pressing against. That’s why it’s desirable for both form and function to treat them.
We begin first with an orthodontic examination to fully assess the situation. At some point we’ll want to pinpoint the impacted teeth’s precise location and position. While x-rays are useful for locating impacted teeth, many specialists use cone beam CT (CBCT) technology that produces highly detailed three-dimensional images viewable from different vantage points.
If the tooth is in too extreme a position, it might be best to remove it and later replace it with a dental impact or similar restoration once we’ve completed other necessary orthodontic treatment. But if the tooth is in a reasonable position, we might be able to “move” the tooth into its proper place in the jaw in coordination with these other tooth-movement efforts to make room for it.
To begin this process, an oral surgeon or periodontist surgically exposes the tooth crown (the normally visible portion) through the gums. They then bond a small bracket to the crown and attach a small gold chain. An orthodontist will attach the other end to orthodontic hardware that will exert downward pressure on the tooth to gradually bring it into normal position.
Dealing with impacted teeth of this nature is often part of a comprehensive effort to correct the bite. If we’re successful, it could permanently transform both the smile and overall dental health.
If you would like more information on treating impacted 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 “Exposing Impacted Canines.”
At your child's latest dental visit, you found out one of their primary (“baby”) teeth has become decayed and in danger of loss. Of course, you may think, it's only a primary tooth — it's going to come out sooner or later.
But a primary tooth lost “sooner” rather than “later” can create long-term negative consequences for your child's dental health. For the sake of the future permanent tooth, the best treatment strategy could be to put forth the effort and expense to save it.
Besides its role in eating and chewing, a primary tooth's most important function is as a “trailblazer” for the permanent tooth developing below it. A primary tooth doesn't normally loosen and let go until the new permanent tooth is ready to erupt. Until then they hold the new tooth's space in the jaw.
But if the primary tooth is lost prematurely, nearby teeth can drift into and crowd the space so that the permanent tooth comes in out of position. This can result in a malocclusion, or poor bite.
Depending on the state of your child's jaw development, it may be advisable to attempt saving the tooth through a filling or, in the case of deep decay, a modified root canal treatment. If the tooth can't be saved, then placing an orthodontic appliance known as a space maintainer might be necessary. Cemented to a tooth next to the empty space, this appliance has a looped band of metal that butts against the tooth on the other side of the gap, and prevents both teeth from drifting into the space.
Intervening for a decayed primary tooth can seem a waste of time and money since it has a limited lifespan to begin with. But for the health of its companion permanent tooth, as well as possibly avoiding orthodontic treatment, it could be well worth it for your child's long-term dental health.
If you would like more information on dental care for your child, 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 “Importance of Baby Teeth.”
Orthodontics can produce an amazing smile transformation. With today’s advanced appliances and techniques even the most difficult malocclusions (bad bites) can be overcome. All of this innovation, however, depends on one basic anatomical fact: though firmly set in the mouth, our teeth can still move.
Teeth are actually held in place by the periodontal ligament, a strong, elastic tissue that attaches to them through tiny collagen fibers on one side of the ligament and to the jawbone with similar fibers on the other side. When pressure is placed against a tooth, the bone on the opposite side of the force begins to dissolve (resorb), allowing the tooth to move. As it moves, new bone is built up behind the tooth, to stabilize it. Orthodontists take advantage of this natural mechanism through orthodontic hardware like braces that applies pressure in the desired direction of movement, while the ligament and bone do the rest.
There is, though, a downside to this process. The teeth, bone and gum tissues can contain a kind of “memory” for the former natural position of the teeth. Over time, the lower front teeth tend to take a gradual migratory movement back towards their original position. Also, as we age the lower front teeth may crowd each other as there is a genetic influence for teeth to move to the midline of the face, causing a pressure that allows the skinny lower front teeth to slip behind each other. As a result of both of these tendencies, corrected teeth may retreat from their new positions.
To stop these tendencies, we use an appliance known as a retainer after braces or other hardware is removed. As the name implies, this appliance “retains” the teeth in their new position. For structural “memory,” the retainer will keep the teeth in their new position until the impulse to return to the old one has faded, about eighteen months. Retainers can also slow or stop the natural genetic influence of movement, but it may mean wearing a retainer for an indefinite period, especially individuals who’ve undergone orthodontic treatment later in life.
The length of time you’ll need to wear a retainer after braces — and what type, whether a removable appliance or one permanently attached — will depend on a number of factors including the type of malocclusion, your individual mouth structure and age. We’ll recommend the best option that ensures the best chance of keeping your teeth in their new position.
If you would like more information on retainers after orthodontic treatment, 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 “Why Orthodontic Retainers?”