Posts for: December, 2014
There’s only one way to effectively halt the progressive damage of periodontal (gum) disease — completely remove the bacterial plaque and hardened deposits (calculus) from above and below the gum line that are causing the infection. Although we can accomplish this in most cases with hand instruments called scalers, ultra-sonic equipment or both, some cases may require periodontal surgery to access and clean deeper “pockets” of infection.
As this damaging disease progresses, the supporting bone dissolves and the gum tissues will begin to detach from a tooth, leaving an open space known as a “periodontal pocket.” Besides plaque and calculus pus may also form as a result of the infection. All of this material must be removed from the pocket before healing and, hopefully, tissue reattachment can begin.
Shallow pockets near the gum line are usually accessed and cleaned with hand instruments. But deeper pockets (5 millimeters or greater in depth) may require a surgical procedure to completely clean the area also allowing for regenerative procedures to be done to regain attachment. This will reduce the depth of the periodontal pockets that will make them more accessible for future cleanings and maintenance. Flap surgery is a common type of such a procedure: a small opening (similar to the flap of a letter envelope) is surgically created in the gum tissue to expose the area of infection around the tooth root and bone.
There are also other types of periodontal surgery for repairing and stimulating regeneration of damaged gum tissues. Using grafts or other enhancements, these plastic surgical techniques are especially useful where gum tissues have receded above the natural gum line, leaving more of the underlying tooth below the enamel exposed to disease. These procedures have become more effective in recent years with the development of specialized technologies called “barrier membranes” and biologic growth factors. These materials have allowed bone grafts to be more successful as this technology is engineered for targeted tissue growth and repair, and then dissolve at an appropriate point in the regeneration process.
Periodontal surgery isn’t appropriate for every situation. Still, these procedures do play an important role for many patients to put a halt to the damage caused by gum disease.
If you would like more information on surgical procedures for 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 “Periodontal Surgery: Where Art Meets Science.”
A recent episode of “America’s Got Talent” featured an engaging 93-year-old strongman called The Mighty Atom Jr. The mature muscleman’s stunt: moving a full-sized car (laden with his octogenarian “kid brother,” his brother’s wife, plus Atom’s “lady friend”) using just his teeth. Grinning for host Howie Mandel, Atom proudly told the TV audience that his teeth were all his own; then he grasped a leather strap in his mouth, and successfully pulled the car from a standstill.
We’re pleased to see that the Atom has kept his natural teeth in good shape: He must have found time for brushing and flossing in between stunts. Needless to say, his “talent” isn’t one we’d recommend trying at home. But aside from pulling vehicles, teeth can also be chipped or fractured by more mundane (yet still risky) activities — playing sports, nibbling on pencils, or biting too hard on ice. What can you do if that happens to your teeth?
Fortunately, we have a number of ways to repair cracked or chipped teeth. One of the easiest and fastest is cosmetic bonding with tooth-colored resins. Bonding can be used to fill in small chips, cracks and discolorations in the teeth. The bonding material is a high-tech mixture of plastic and glass components that’s extremely lifelike, and can last for several years. Plus, it’s a procedure that can be done right in the office, with minimal preparation or discomfort. However, it may not be suitable for larger chips, and it isn’t the longest-lasting type of restoration.
When more of the tooth structure is missing, a crown (or cap) might be needed to restore the tooth’s appearance and function. This involves creating a replacement for the entire visible part of the tooth in a dental lab — or in some cases, right in the office. It typically involves making a model of the damaged tooth and its neighbors, then fabricating a replica, which will fit perfectly into the bite. Finally, the replacement crown is permanently cemented to the damaged tooth. A crown replacement can last for many years if the tooth’s roots are in good shape. But what if the roots have been dislodged?
In some cases it’s possible to re-implant a tooth that has been knocked out — especially if it has been carefully preserved, and receives immediate professional attention. But if a tooth can’t be saved (due to a deeply fractured root, for example) a dental implant offers today’s best option for tooth replacement. This procedure has a success rate of over 95 percent, and gives you a natural looking replacement tooth that can last for the rest of your life.
So what have we learned? If you take care of your teeth, like strongman Atom, they can last a long time — but if you need to move your car, go get the keys.
If you would like more information about tooth restoration, please contact us or schedule an appointment for a consultation. You can learn more by reading the Dear Doctor magazine article “Crowns & Bridgework.”
Bacteria are bad… right? They can cause diseases like pneumonia, strep throat, and tooth decay. They are the reason we wash our hands with soap (or antibacterial gels) and cook (or refrigerate) our food. Yet it turns out that bacteria are also necessary to keep our bodies healthy — and new research is showing just how important these tiny microorganisms are to our well-being. Here are five facts you should know about bacteria.
The bacteria in our bodies outnumber our cells by a factor of 10 to 1. An estimated 100 trillion bacteria live inside the average human — but because they’re so small, they make up only 1-3 percent of our body mass.
The collection of bacteria we harbor is called our “microbiome.” Like the groundbreaking study of human DNA called the Human Genome Project, recent research is leading to a “map” of our bacterial makeup. This revolutionary study is called — you guessed it — the Human Microbiome Project.
No two people have exactly the same microbiome. But in general, the bacteria that live in a particular spot on the body (the mouth, for example) play the same roles in different individuals. Research has also shown that a healthy microbiome looks very different from a diseased microbiome.
In terms of bacteria, the mouth is one of the best-understood areas of the body. It has long been known that tooth decay can result when “bad” oral bacteria begin to outnumber their “good” counterparts. Now we are gaining a better understanding of how certain lifestyle factors — like cigarette smoking — may influence the bacterial balance in the mouth.
Understanding the microbiome may lead to new treatments for disease. Researchers hope that one day, certain serious diseases could be controlled by bacterial “transplants” that re-balance an individual’s microbiome. Maintaining a healthy microbiome could also help prevent many diseases.
So by all means, don’t stop brushing your teeth or washing your hands — this helps control bacteria that could harm you — but do remember that not all bacteria are harmful. One day, an infusion of bacteria might just cure your illness.