Posts for: February, 2021
When dental implants hit the scene in the 1980s, they revolutionized the field of dental restorations. But as groundbreaking as they were then, they're even more advanced now.
Some of the advancements have to do with improvements in implant design and manufacturing. Implant sizes and shapes were once quite limited, but today they come in a variety of forms to better match the types of teeth they replace.
But there has also been important progress in complementary technologies that help us realize better outcomes. Many of these other advances have had a positive impact on the planning and surgical stages of implant installation.
CT/CBCT scanning. For the best outcome, it's critical to install an implant at the most appropriate location on the jaw. This can be difficult to determine, however, because of the location of oral and facial structures like nerves or sinuses that might interfere with implant placement. But using a type of computer tomography (CT) scanning called cone beam CT, we can produce a 3-D computer graphic image that helps us navigate possible obstructions as we pinpoint the ideal location for an implant.
Digital smile displays. We're now able to produce digital models of the mouth, which can assist with more than implant placement—we can also use them to visualize what a new smile with implants will look like before we install them. This is especially helpful in situations where only a few teeth need to be replaced: We want to ensure that the new implant crowns blend seamlessly with the remaining teeth for the most natural appearance.
Custom-made surgical guides. We've been using surgical guides to mark the exact drilling locations during implant surgery for many years. But 3-D printing technology can now help us produce surgical guides that are even more useful and precise. Using a 3-D printer, we can produce oral devices based on the patient's individual dental dimensions captured through digital scanning. That produces a better fit for the guide on the teeth and more accurate implant placement.
Together, these and other technological advances are helping us achieve even more successful results. Not only can they help us produce implant outcomes that can last for years or even decades, but also the most beautiful smiles possible.
If you would like more information on dental implant 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 “How Technology Aids Dental Implant Therapy.”
If you've ever had a run-in with cavities, you know the drill (no pun intended): After getting a local anesthetic for pain, the dentist removes any decayed dental tissue, as well as some healthy tissue, and then fills the cavity to restore the tooth. It's an effective treatment protocol we've been using for well over a century.
It does, however, have its drawbacks. For one, although necessary, removing healthy dental tissue can weaken the overall tooth structure. The dental drill used during the procedure is also unpleasant to many people: Although it doesn't cause any pain thanks to the anesthetic, the sounds and pressure sensations associated with it can be unsettling.
But advances in dental tools, technology and techniques are addressing these drawbacks in traditional tooth decay treatment. In other words, treating a tooth with cavities today is taking on a lighter touch. Here are 3 reasons why.
Earlier detection. The key to effective treatment is to find tooth decay in its earliest stages. By doing so, we can minimize the damage and reduce the extent of treatment needed. To do this, we're beginning to use advanced diagnostic tools including digital x-rays, intraoral cameras and laser fluorescence to spot decay, often before it's visible to the naked eye.
Re-mineralizing enamel. One of the advantages of early detection is to catch tooth enamel just as it's undergoing loss of its mineral content (demineralization) due to contact with acid. At this stage, a tooth is on the verge of developing a cavity. But we can use minimally invasive measures like topically applied fluoride and CPP-ACP (a milk-based product) that stimulates enamel re-mineralization to prevent cavity formation.
Less invasive treatment. If we do encounter cavities, we no longer need to turn automatically to the dental drill. Air abrasion, the use of fine substance particles under high pressure, can precisely remove decayed material with less loss of healthy tissue than a dental drill. We're also using newer filling materials like composite resins that don't require enlarging cavities as much to accommodate them.
These and other techniques—including laser technology—are providing superior treatment of tooth decay with less invasiveness. They can also make for a more pleasant experience when next you're in the dentist's chair.
If you would like more information on effectively treating dental 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 “Minimally Invasive Dentistry.”
During election season, you'll often hear celebrities encouraging you to vote. But this year, Kaia Gerber, an up-and-coming model following the career path of her mother Cindy Crawford, made a unique election appeal—while getting her wisdom teeth removed.
With ice packs secured to her jaw, Gerber posted a selfie to social media right after her surgery. The caption read, “We don't need wisdom teeth to vote wisely.”
That's great advice—electing our leaders is one of the most important choices we make as a society. But Gerber's post also highlights another decision that bears careful consideration, whether or not to have your wisdom teeth removed.
Found in the very back of the mouth, wisdom teeth (or “third molars”) are usually the last of the permanent teeth to erupt between ages 17 and 25. But although their name may be a salute to coming of age, in reality wisdom teeth can be a pain. Because they're usually last to the party, they're often erupting in a jaw already crowded with teeth. Such a situation can be a recipe for numerous dental problems.
Crowded wisdom teeth may not erupt properly and remain totally or partially hidden within the gums (impaction). As such, they can impinge on and damage the roots of neighboring teeth, and can make overall hygiene more difficult, increasing the risk of dental disease. They can also help pressure other teeth out of position, resulting in an abnormal bite.
Because of this potential for problems, it's been a common practice in dentistry to remove wisdom teeth preemptively before any problems arise. As a result, wisdom teeth extractions are the top oral surgical procedure performed, with around 10 million of them removed every year.
But that practice is beginning to wane, as many dentists are now adopting more of a “wait and see” approach. If the wisdom teeth show signs of problems—impaction, tooth decay, gum disease or bite influence—removal is usually recommended. If not, though, the wisdom teeth are closely monitored during adolescence and early adulthood. If no problems develop, they may be left intact.
This approach works best if you maintain regular dental cleanings and checkups. During these visits, we'll be able to consistently evaluate the overall health of your mouth, particularly in relation to your wisdom teeth.
Just as getting information on candidates helps you decide your vote, this approach of watchful waiting can help us recommend the best course for your wisdom teeth. Whether you vote your wisdom teeth “in” or “out,” you'll be able to do it wisely.