Posts for tag: orthodontic treatment
At any given time some 4 million teens and pre-teens are wearing braces or other orthodontic appliances to correct a malocclusion (poor bite). While most cases are straightforward, some have difficulties that increase treatment time and cost.
But what if you could reduce some of these difficulties before they fully develop? We often can through interceptive orthodontics.
This growing concept involves early orthodontic treatment around 6 to 10 years of age with the goal of guiding the development of a child’s jaws and other mouth structures in the right direction. These early years are often the only time of life when many of these treatments will work.
For example, widening the roof of the mouth (the palate) in an abnormally narrow upper jaw takes advantage of a gap in the bone in the center of the palate that doesn’t fuse until later in adolescence. A device called a palatal expander exerts outward pressure on the back teeth to influence the jawbone to grow out. New bone fills in the gap to permanently expand the jaw.
In cases with a developing overbite (the upper front teeth extending too far over the lower teeth when closed), we can install a hinged device called a Herbst appliance to the jaws in the back of the mouth. The hinge mechanism coaxes the lower jaw to develop further forward, which may help avoid more extensive and expensive jaw surgery later.
Interceptive treatments can also be fairly simple in design like a space retainer, but still have a tremendous impact on bite development. A space maintainer is often used when a primary (“baby”) tooth is lost prematurely, which allows other teeth to drift into the empty space and crowd out the incoming permanent tooth. The wire loop device is placed within the open space to prevent drift and preserve the space for the permanent tooth.
To take advantage of these treatments, it’s best to have your child’s bite evaluated early. Professional organizations like the American Association of Orthodontists (AAO) recommend a screening by age 7. While it may reveal no abnormalities at all, it could also provide the first signs of an emerging problem. With interceptive orthodontics we may be able to correct them now or make them less of a problem for the future.
If you would like more information on 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 article “Interceptive Orthodontics.”
If you've known anyone who has worn braces, you know what comes after — wearing a retainer. This can be kind of a letdown after all those months with braces, but it's absolutely necessary.
That's because teeth have a tendency to “rebound” to their pre-orthodontic positions once the force to move them stops after the braces are removed. Retainers help keep or “retain” moved teeth in their new positions and prevent them from reverting to the old.
When you think “retainer,” you probably picture a removable appliance with a wire that fits over the front of the teeth. While that may be the most common type, it isn't the only one. There's another called a bonded retainer, a thin piece of wire bonded to the back of the teeth that need to be retained. Unlike the other type, a dentist must remove a bonded retainer when it's no longer needed.
The biggest advantage of a bonded retainer is its invisibility — the wire is behind the teeth so no one can see it as with a removable retainer. The wire is bonded to the teeth with a dental composite material and then light-cured to create a strong attachment.
Another advantage is especially pertinent to younger patients. Because it's permanently attached and can't be taken out, there's no constant reminding of the patient to wear it — and no more worries about replacing a lost one.
They can, though, be difficult to floss around leading to potential plaque buildup that increases disease risk. It's very important you receive proper hygiene instruction for cleaning under the bonded retainer. Another concern is that they can break under excessive chewing pressure. And as with the more common retainer, we wouldn't want to remove it as that will result in the teeth's relapse to their old positions.
To learn which retainer is best for your situation, you should discuss the options with your orthodontist. Regardless of which type you choose, though, a retainer is a must for protecting your investment in that new smile.
If you would like more information on orthodontics and retainers, 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 “Bonded Retainers.”
After months of wearing braces it's time for the big reveal: your new and improved smile! Your once crooked teeth are now straight and uniform.
But a look in the mirror at your straighter teeth might still reveal something out of place: small chalky-white spots dotting the enamel. These are most likely white spot lesions (WSLs), points on the enamel that have incurred mineral loss. It happens because mouth acid shielded by your braces contacted the teeth at those points for too long.
Most mouth acid is the waste product of bacteria that thrive in dental plaque, a thin film of food particles that can build up on tooth surfaces. High levels of acid are a definite sign that plaque hasn't been removed effectively through brushing and flossing.
But normal hygiene can be difficult while wearing braces: it's not easy to maneuver around brackets and wires to reach every area of tooth surface. Specialized tooth brushes can help, as well as floss threaders that help maneuver floss more easily through the wires. A water irrigator that uses pulsating water to remove plaque between teeth is another option.
However, if in spite of stepped-up hygiene efforts WSLs still develop, we can treat them when we've removed your braces. One way is to help re-mineralize the affected tooth surfaces through over-the-counter or prescription fluoride pastes or gels. It's also possible re-mineralization will occur naturally without external help.
While your teeth are sound, their appearance might be diminished by WSLs. We can improve this by injecting a liquid tooth-colored resin below the enamel surface. After hardening with a curing light, the spot will appear less opaque and more like a normal translucent tooth surface. In extreme cases we may need to consider porcelain veneers to cosmetically improve the tooth appearance.
In the meantime while wearing braces, practice thorough dental hygiene and keep up your regular cleaning visits with your general dentist. If you do notice any unusual white spots around your braces, be sure to see your dentist or orthodontist as soon as possible.
If you would like more information on dental care during 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 “White Spots on Teeth during Orthodontic Treatment.”
If you or a family member has problems with teeth alignment or your bite, you may be considering braces. This tried and true method can straighten out most smiles — but there's more to braces than you may realize.
For one thing, orthodontic treatment wouldn't work if it weren't for the natural mechanism for tooth movement that already exists in the mouth. It may seem your teeth are rigidly set in the jawbone but that's not how they maintain their attachment: that's the job of an elastic connective tissue known as the periodontal ligament that lies between the tooth and the bone. The ligament has tiny fibers that attach to the tooth on one side and to the bone on the other to actually hold the teeth in place, much like a hammock secured between two posts.
The ligament attachment also allows the teeth to move incrementally in response to environmental factors or the aging process. We harness this natural movement ability with braces to move teeth to a more desirable position. We first attach small brackets to the front crowns of the teeth (the visible portion) and then string arch wires through them. We then attach the wires to anchor points where we can adjust the amount of tension they're exerting through the brackets against the teeth. By gradually increasing that tension, the teeth respond as they would when any force is applied against them and begin to move.
By precisely controlling that movement we can transform a patient's smile. But we believe the advantages are more than cosmetic: the teeth will function better and will be easier to care for and keep clean. These benefits, though, have to be balanced with heightened risks for root resorption (something that occurs only about 10% of the time) in which the ends of the roots can shrink, or loss of mineral content in teeth enamel where the hardware makes it more difficult to remove bacterial plaque. These risks can be reduced by closely monitoring dental health during the entire treatment process and through stepped up efforts in daily oral hygiene.
The starting point for deciding on an orthodontic treatment is a thorough dental examination with x-rays or CT scan imaging. Once we have a complete picture of your misalignment problems and any other extenuating circumstances, we can recommend a treatment plan just for you.
If you would like more information on 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 “Moving Teeth with Orthodontics.”
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?”