Posts for tag: dental implant
Losing your teeth can be a traumatic experience with serious consequences for your overall health. Fortunately, you have great options for replacing lost teeth that can restore both appearance and dental function.
One such option is a fixed bridge supported by dental implants. While implants are best known for single tooth replacement, they can also be used with other restorations like bridges. In this case, the bridge is screwed into a few well-placed implants to support it.
Implants can provide bridges with more security and support, and without the need to alter adjacent teeth that are commonly used for traditional tooth replacement. They may also slow or stop bone loss because the titanium in implants naturally attracts bone cells that grow and adhere to its surface and provide stimulation to the bone cells during function.
Because of these benefits an implant-supported bridge could be a life-changer that provides years of satisfaction. But we can’t simply “set them and forget them”: They require dedicated oral hygiene just like natural teeth.
While the bridge materials and implants themselves are in no danger from disease, the same can’t be said for the implant’s supporting gums and bone. Dental plaque, the main driver in gum disease, can place these tissues at risk for infection that could eventually lead to implant failure.
It’s important, then, for you to floss around your new implants to remove any plaque. This differs from regular flossing in which you work the thread between teeth. Instead, you’ll have to maneuver the floss between the bridge and gums with the help of a floss threader, a small slender tool with a loop at one end and a stiffer plastic edge at the other (similar to a sewing needle).
To use it, first run 18” of floss through the loop until you get equal lengths and then work the tail of the floss threader between the bridge and gums while holding one end of the floss. Once through, you pull the floss threader through so that the floss is on either side of the bridge. Then grab each end of the floss and pull it snug to floss up and down one side of the implant. Go to the next side and repeat this procedure for all the implants.
As an alternative, you could use an oral irrigator, which emits a pulsating spray of water to loosen and wash away plaque. Either way, though, it’s important to floss around implants to get the most life out of your bridge.
If you would like more information on proper care for implant-supported restorations, 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 “Oral Hygiene for Fixed Bridgework.”
Besides their life-likeness, implants are also prized for their high success rate. More than ninety-five percent of implants continue to function effectively after ten years.
Implants’ advanced technology explains some of their reliability and longevity—they’re as close to natural teeth as we’re now able to achieve. But their impressive success rate also owes to the detailed protocols that dentists follow to install them. One critical part of these protocols is ensuring a patient has enough bone in their jaw to support and precisely situate the implant for the best functional and aesthetic outcome.
Unfortunately, there are situations where a patient doesn’t have enough bone to achieve a satisfactory result. This often happens if there’s been months or years between losing the tooth and considering an implant. The reason why relates to the nature of bone as living tissue.
Like other cellular tissues in the body, bone has a life cycle: Older, worn-out cells die and are absorbed by the body, and new cells form to replace them. The growth cycle in the jaw receives stimulation from the forces generated when we chew, which travel up through the teeth to the bone.
However, this stimulation stops after tooth loss for the related area of bone, which can slow new bone growth. Over time, the volume and density of the bone around a missing tooth gradually decreases, enough eventually to make an implant impractical.
Insufficient bone volume, though, doesn’t necessarily mean an implant is out of the question. We may be able to address the problem by attempting to regenerate the bone through grafting. This is a procedure in which we insert graft material into the affected area of the jawbone. The graft then becomes a scaffold upon which bone cells can grow. After several months, we may have enough regenerated bone to support an implant.
If there’s been too much bone loss, we may still need to consider another form of restoration. But if we can successfully build up the bone around your missing tooth, this premier restoration for replacing lost teeth could become a reality for you.
Compared to other dental restorations—a few of which have been around for over a century—implants are a relatively recent development. But even though it's just now entering its fourth decade, recent advances have catapulted implant therapy well beyond where it began.
That's due mainly to digital technology. Two examples of this, computed tomography (CT) and 3-D printing, are increasing the accuracy and efficiency of implant placement.
Properly placing an implant is one of the most important elements in achieving a natural and attractive result. But finding the best location is often difficult due to a lack of suitable bone volume, the patient's bite or the proximity of anatomical structures like nerves and blood vessels. CT imaging, especially Cone Beam CT scanners (CBCT), is helping to make implant placement planning easier.
Unlike the static, two-dimensional views of standard x-rays, CBCT takes hundreds of images and digitally blends them together to create a virtual 3-D model of the patient's jaw and face. Dentists can view this highly detailed model on a computer monitor from various vantage points and better identify possible obstructions. With better information about what "lies beneath," they can more accurately pinpoint the best implant site.
Creating the ideal plan is one thing—successfully implementing it is another. Dentists often create a surgical guide that helps them drill in precisely the right positions during surgery. The guide, which resembles a mouthguard, fits over the gums and contains marker locations for drilling.
Many dentists are now using 3-D printing to create these surgical guides. A 3-D printer turns a digital model of the guide based on measurements of the patient's mouth and proposed implant locations into an actual physical object "printed out" layer by layer of special polymer material. The end product can be more precise than guides created by other means.
These and other technological developments are helping implant therapy rise to a new level of success. With the resulting increase in accuracy, efficiency and less treatment time, tomorrow's implant patients will be the ultimate beneficiaries.
If you would like more information on restoring missing teeth with dental implants, 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 “How Technology Aids Dental Implant Therapy.”