Posts for: August, 2018
Once upon a time, celebrities tried hard to maintain the appearance of red-carpet glamour at all times. That meant keeping the more mundane aspects of their lives out of the spotlight: things like shopping, walking the dog and having oral surgery, for example.
That was then. Today, you can find plenty of celebs posting pictures from the dentist on social media. Take Julianne Hough, for example: In 2011 and 2013, she tweeted from the dental office. Then, not long ago, she shared a video taken after her wisdom teeth were removed in December 2016. In it, the 28-year-old actress and dancer cracked jokes and sang a loopy rendition of a Christmas carol, her mouth filled with gauze. Clearly, she was feeling relaxed and comfortable!
Lots of us enjoy seeing the human side of celebrities. But as dentists, we’re also glad when posts such as these help demystify a procedure that could be scary for some people.
Like having a root canal, the thought of extracting wisdom teeth (also called third molars) makes some folks shudder. Yet this routine procedure is performed more often than any other type of oral surgery. Why? Because wisdom teeth, which usually begin to erupt (emerge from beneath the gums) around age 17-25, have the potential to cause serious problems in the mouth. When these molars lack enough space to fully erupt in their normal positions, they are said to be “impacted.”
One potential problem with impacted wisdom teeth is crowding. Many people don’t have enough space in the jaw to accommodate another set of molars; when their wisdom teeth come in, other teeth can be damaged. Impacted wisdom teeth may also have an increased potential to cause periodontal disease, bacterial infection, and other issues.
Not all wisdom teeth need to be removed; after a complete examination, including x-rays and/or other diagnostic imaging, a recommendation will be made based on each individual’s situation. It may involve continued monitoring of the situation, orthodontics or extraction.
Wisdom tooth extraction is usually done right in the office, often with a type of anesthesia called “conscious sedation.”Â Here, the patient is able to breathe normally and respond to stimuli (such as verbal directions), but remains free from pain. For people who are especially apprehensive about dental procedures, anti-anxiety mediation may also be given. After the procedure, prescription or over-the-counter pain medication may be used for a few days. If you feel like singing a few bars, as Julianne did, it’s up to you.
If you would like more information about wisdom tooth extraction, please call our office to arrange a consultation. You can learn more in the Dear Doctor magazine articles “Wisdom Teeth” and “Removing Wisdom Teeth.”
Orthodontics shares a principle with the classic tug of war game: if you want things to move in the right direction you need a good anchor. Anchors help braces and other appliances apply constant pressure to misaligned teeth in the direction they need to go to correct a malocclusion (poor bite).
Orthodontic treatments work in cooperation with an existing oral mechanism that already moves teeth naturally in response to biting forces or other environmental factors. The key to this mechanism is an elastic tissue known as the periodontal ligament that lies between the tooth and the bone. Besides holding teeth in place through tiny attached fibers, the ligament also allows the teeth to move in tiny increments.
Braces’ wires laced through brackets affixed to the teeth exert pressure on them in the desired direction of movement –the periodontal ligament and other structures do the rest. To maintain that pressure we need to attach them to an “anchor”—in basic malocclusions that’s usually the back molar teeth.
But not all malocclusions are that simple. Some may require moving only certain teeth while not moving their neighbors. Younger patients’ jaws and facial structures still under development may also need to be considered during orthodontic treatment. That’s why orthodontists have other anchorage methods to address these possible complications.
One example of an alternate anchorage is a headgear appliance that actually uses the patient’s skull as the anchor. The headgear consists of a strap running around the back of the head and attached in front to orthodontic brackets (usually on molar teeth). The pressure it exerts can trigger tooth movement, but it can also help influence jaw development if an upper or lower jaw is growing too far forward or back.
Another useful anchorage method is a tiny metal screw called a temporary anchorage device (TAD) that is implanted into the jawbone above the teeth through the gums. Orthodontists then attach elastic bands between implanted TADs and specific braces’ brackets or wires to exert pressure on certain teeth but not others with pinpoint accuracy. After treatment the TADs can be easily removed.
Using these and other appliances allows orthodontists to customize treatment to an individual patient’s particular malocclusion. With the right anchor, even the most complex bite problem can be transformed into a beautiful and healthy smile.
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 “Orthodontic Headgear & Other Anchorage Appliances.”
Today’s dental care has advanced leaps and bound over the last century. But these advances are tiny steps compared to what many believe may be coming in the next few decades. This optimism arises from our growing understanding of deoxyribonucleic acid (DNA), the chain-like molecule that houses the genetic instructions for the growth, function and reproduction of every cell in the body.
As researchers unlock the secrets of this vast genetic blueprint unique to each individual the possible applications from this knowledge are astounding. Here are just a few possibilities that could one day impact everyone’s oral health.
Preventing tooth decay. This rampant disease, triggered by bacteria (particularly Streptococcus mutans), can cause extensive damage in otherwise healthy teeth. There’s already some indications from the study of genomics that we may be able to stop or at least hinder this disease in its tracks. Already we’re seeing advances in gene therapy that might be able to inhibit the growth of Strep mutans and reduce its colonies in the mouth.
Growing new teeth. Composed of various layers, a natural tooth is part of a dynamic system of bone and gum ligaments that allow movement, protection and nourishment. Although dental implants are the closest and most advanced artificial approximation we now have to them, implants still can’t fully measure up to the function and capabilities of a natural tooth. But further insight into the genetic code may one day allow us to reproduce a living replacement tooth for a lost one.
Harnessing saliva for detecting disease. The impact of genomics related to the mouth could impact more than just the mouth itself. Researchers have discovered that saliva contains genetic information similar to blood, urine and other bodily fluids with markers for various disease conditions. Unlike other fluids, though, saliva is relatively easy to collect. The key is new equipment and testing protocols to take advantage of the information already available in a single drop of saliva.
These examples illustrate the range of possibilities for better health in the future: a reduction in dental disease early in life; new and better ways to restore missing teeth; and quicker ways to diagnose dangerous health conditions.
If you would like more information on new developments in dental care, 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 “The Future of Dentistry: A Sneak Preview of Your Dental Future.”