Posts for tag: gum disease
How do you know if you have periodontal (gum) disease? Sometimes your gums will tell you—when they’re red, swollen or bleed easily.
But your gums can also look and feel healthy while a gum infection still brews below the gum line. In this case, a regular dental visit could make the difference. Even without overt signs of infection, we may be able to detect gum disease with a slender metal instrument called a periodontal probe.
Gum disease is a bacterial infection that most of the time arises from dental plaque. This thin film of bacteria and food particles accumulates on tooth surfaces, especially because of poor or non-existent oral hygiene. A continuing infection can weaken gum tissues and cause them to pull away or detach from the teeth.
Normally, there’s a slight gap between the gums and teeth. But as the infected gums pull away, the gaps grow larger and deeper, forming what are known as periodontal pockets. They become filled with infection that soon spreads to the root and bone and increases the risk of tooth loss.
These pockets, though, could be the means for detecting a gum infection with the help of the periodontal probe. During a dental exam we gently insert the probe, which has millimeter depth markings etched on it, between a tooth and its adjacent gums. While a depth of 1 to 3 mm is normal, a probe measurement of 4 to 5 mm could be a sign of an early stage infection. A reading of 7 to 10 mm, on the other hand, may indicate more advanced disease.
Along with other factors, periodontal probing can be quite useful identifying both the presence and extent of a gum infection and then how to treat it. The goal of any treatment is to remove plaque and tartar (calculus) deposits that sustain the infection. But probing, along with other diagnostic methods like x-rays, could point to deeper infection below the gum line that require more extensive methods, including surgery, sometimes to access and remove the disease.
Achieving the best treatment outcome with gum disease often depends on finding the infection early. Periodontal probing helps to make that discovery more likely.
Among dental restorations, implants are the closest prosthetic we have to real teeth. They not only replace the visible crown, but the titanium post imbedded in the jawbone adequately substitutes for the tooth root. Because of their unique design, implants are not only life-like, they’re highly durable and could potentially last for decades.
But while their success rate is remarkably high (more than 95% exceed the ten-year mark), they can fail. Ironically, one possible cause for implant failure is periodontal (gum) disease. Although an implant’s materials are themselves impervious to disease, the tissues and underlying bone that support the implant aren’t. If these natural tissues become infected, the secure hold the implant has can weaken and fail.
A gum infection usually begins with dental plaque, a thin biofilm of bacteria and food particles that builds up on tooth surfaces. Certain strains of bacteria within plaque can infect the gums. One particular form of the disease known as peri-implantitis starts as an initial infection and ensuing inflammation of gum tissues around an implant. The disease can quickly spread down to the bone and destroy the integration between the bone and the implant that helps keep the implant in place.
That’s why it’s important for you to keep the implant and the tissues around it clean of plaque, just as you would the rest of your natural teeth. This requires daily brushing and flossing around the implant and other teeth, and visiting your dentist regularly for more thorough dental cleanings.
You should also be alert to any signs of disease, especially around implants: gum redness, swelling, bleeding or pus formation. Because of the rapidity with which peri-implantitis can spread, you should see your dentist as soon as possible if you notice any of these signs.
Preventing gum disease, and treating it promptly if it occurs, is a key part of implant longevity. Preserving your overall dental health will help make sure your implant doesn’t become a loss statistic.
We’ve developed a number of effective treatments for periodontal (gum) disease. Depending on how far and deep a patient’s infection has advanced, treatment can be quite invasive and even require surgery. The more invasive, the longer and more uncomfortable the healing process can be.
But using a medical laser could make that less so. Although its use for gum disease treatment is still in its infancy, the latest observations from the field seem to show patients undergoing laser treatment may have less tissue trauma and bleeding, less discomfort after the procedure and quicker healing times.
Gum disease is a bacterial infection mostly caused by dental plaque, a thin film of food particles that build up on teeth in the absence of effective oral hygiene. The infection can advance deep below the gum line, weakening gum attachment to teeth and destroying supporting bone. Ultimately the affected teeth can be lost.
Traditionally, the only way to stop the disease is to manually remove plaque buildup on teeth and gum surfaces, which is continuing to sustain the infection, with special hand instruments called scalers or ultrasonic equipment. Because it’s important to remove as much plaque and diseased tissue as possible, we may need to perform a surgical procedure called flap surgery to move some of the gum tissues out of the way to get to these deeper areas. As with any surgery, this can create tissue trauma that may cause discomfort during the healing process.
Our new alternative is to use an Nd:YAG medical laser in a procedure known as Laser Assisted New Attachment Procedure or LANAP. With light energy delivered through a small fiber no more than the width of three human hairs, the laser can pinpoint diseased tissue and destroy bacteria through intense heat. Because of the laser beam’s tiny width and pulsing action, healthy tissue is at less risk for trauma than with the traditional treatment.
Coupled with other techniques, LANAP procedures could remove as much infected tissue and plaque as traditional methods, but with less healthy tissue trauma. In the future, then, patients with advanced gum disease undergoing laser treatment could have less bleeding and discomfort and faster healing times.
If you would like more information on treating 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 “Treating Gum Disease with Lasers.”
Periodontal disease may start in the gums’ superficial layers, but it’s not likely to stay there. As the disease moves deeper it can wreak havoc on tooth roots and bone as well as gum tissue attachments. Teeth with multiple roots are in particular peril because of the “forks” called furcations that form where the roots separate from each other. Infected furcations can be very difficult to treat.
We primarily treat gum disease by removing its main source, a thin film of bacteria and food particles called dental plaque that builds up on teeth. To remove it we most often use special hand tools or ultrasonic equipment to vibrate it loose. As the plaque and tartar diminish, the infection begins to wane.
But we can’t be completely successful in stopping the disease if any lingering plaque deposits remain. This especially includes furcations where the infection can cause significant damage to the roots. Although cleaning furcations of plaque can be difficult, it’s not impossible with the aforementioned tools and antimicrobial substances to disinfect the area.
The real problem, though, is access—effectively getting to the furcations to treat them. We may need to perform a surgical procedure called flap surgery where we create a hinged flap in the gum tissue to move it aside and access the root area beneath. Afterward we replace the flap and suture the tissue back in place.
In some cases, the infection may have already caused significant damage to the tissue and underlying bone. We may therefore need to graft gum or bone tissues to these damaged areas to stimulate re-growth. We may also need to surgically reshape the gum attachments around a tooth to make it easier in the future to access and clean the area.
These additional treatments around furcations can be very involved and labor-intensive. That’s why the best outcomes occur if we’re able to start treatment in the early stages of an infection. So, if you notice red, swollen or bleeding gums contact your dentist as soon as possible. Treating gum disease as early as possible will help ensure your tooth roots won’t suffer extensive damage.
If you would like more information on treating 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 “What are Furcations? Branching Tooth Roots can be Periodontal Nightmares.”
One of the most important revolutions in healthcare in recent decades is the increasing use of lasers. Now, laser technology is making a showing in dental care for the treatment of periodontal (gum) disease.
Lasers (an acronym for "Light Amplification by Stimulated Emission of Radiation") narrowly focus and amplify light within a small area. First developed in the early 1960s, laser technology rapidly advanced in the ensuing decades with more compact and precise devices that were eventually safe and effective for many types of medical procedures. Its remarkable features are now available for the primary focus of gum disease treatment—removing bacterial plaque.
Plaque is a thin, built-up film of bacteria and food particles on tooth and gum surfaces that serves as a haven for the bacteria that cause gum disease. The continuing presence of plaque and calculus (tartar) enables the infection to thrive and advance within the gum tissues, ultimately damaging them along with supporting bone. As the tissues weaken and bone volume diminishes, the teeth are at greater risk for loss.
It's necessary, therefore, first and foremost to remove all detectable plaque and calculus to stop the infection. This is traditionally done with special hand tools called scalers used to manually remove plaque, or with ultrasonic equipment that vibrates plaque loose to be flushed away with water. These procedures can take numerous sessions and may result in some minor post-procedural discomfort and bleeding during the cleaning.
But lasers specifically designed for plaque removal can minimize tissue damage and resulting discomfort. Because the particular laser light used reacts only with plaque and diseased tissue, it can remove them without disturbing nearby healthy tissue usually more efficiently than traditional scaling. Dentists who've used the technology frequently report less bleeding and higher patient satisfaction.
But before lasers for gum disease treatment are widely adopted, the procedure must undergo further scrutiny. Reports from dentists notwithstanding, not enough research studies have been performed to date that meet the necessary scientific criteria. But if the evidence so far from the field holds up, it's quite possible lasers will one day become a regular part of dental practice for treating gum disease.
If you would like more information on treating 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 “Lasers Versus Traditional Cleanings for Treating Gum Disease.”