Laser Technology Spots Cavities Before They Start
Friday, August 22, 2008; 12:00 AM
FRIDAY, Aug. 22 (HealthDay News) -- Using lasers to spot troubled teethbeforecavities form, researchers hope to turn the dentist's drill into a relic of the 20th century.
The technology, called "Raman spectroscopy" (RS), is not brand new. In fact, scientists in other fields have long been using it to distinguish between various chemicals, based on their unique molecular fingerprints.
But this is the first time RS has been used to identify teeth in the very earliest stages of decay, the British research team said.
"The technique we are working with can tell the difference between [healthy] enamel and decaying enamel, and so in the future, if this technology is further developed, a dentist could identify early decay using it," explained study co-author Frances Downey, a graduate student with the Biomaterials, Biomimetics & Biophotonics Research Group operating out of the Dental Institute of King's College London.
Results of what Downey and her colleagues refer to as a "preliminary" effort were reported at the Microscience 2008 conference held recently in London.
The new approach to cavity prevention might be available for practical use five years down the road, Downey said. For the moment, work has been conducted solely with already extracted teeth, rather than with actual patients.
Researchers took advantage of the fact that cavities develop when the acids produced by microorganisms found in dental plaque begin to demineralise tooth enamel and produce distinct chemical changes.
By focusing RS optical fibers on individual teeth, the authors were able to track the unique light patterns that emanate from chemical compositions on either healthy or decaying enamel.
Theoretically, such a process could quickly spot tooth decay at a much earlier stage than the current screening standard, which is based on visual exams and X-rays.
The result of such early detection might be cavity prevention, not repair, the researchers said. In essence, sites of decay could be rematerialized with medicinal mouthwashes and fluoride varnishes, preventing the development of full-blown cavities and eliminating the need for dental drilling.
Study supervisor Dr. Frederic Festy said that larger studies involving patients are in the planning stages.
"However, that is not to say dentist drills would become obsolete," said Downey. She and her team noted that, in its current form, the screening procedure would be both expensive and time-consuming. "I think there will always be those of us who like our sweets a bit too much, and visit the dentist too infrequently, to keep them in business," she said.
But Charlie Brown, national counsel for Consumers for Dental Choice, based in Washington, D.C., hailed the innovation as an "excellent development."
"Anything that means that there might be fewer filling materials used in the mouth is a tremendously positive development," Brown said. "I salute any technology that will scan the mouth and prevent cavities before they occur, so we can try to have the least intervention in the mouth as possible."
There's more on dental cavities at the American Dental Association.
SOURCES: Frances Downey, Ph.D. candidate, Biomaterials, Biomimetics & Biophotonics Research Group, Dental Institute, King's College London, U.K.; Charlie Brown, national counsel, Consumers for Dental Choice, Washington, D.C.; June 2008 Microscience 2008 conference, London