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New Device Could Shorten, Improve Orthodontic Treatment

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bijounmepani's picture
Joined: 29 Jun 2009

For the 5 million in the United States and Canada who wear braces, better oral health, an attractive smile and enhanced self-image are just a few of the benefits. Yet, many orthodontic patients particularly the one in five who are adults testify that the much-anticipated date their braces are to be removed is a day they wish would arrive sooner.

A team of orthodontists at The University of Texas Health Science Center at San Antonio hopes to speed up and improve orthodontic treatment using a new device called the AcceleDent.

Dubravko Pavlin, D.M.D., M.S.D., Ph.D., an associate professor in the Department of Orthodontics at the Health Science Center, worked with a team of investigators from OrthoAccel Technologies, Inc. of Houston to help develop the device.

His colleagues Ravikumar Anthony, B.D.S., M.D.S., M.S., clinical instructor of orthodontics, and Peter Gakunga, B.D.S., M.S., Ph.D., assistant professor of orthodontics at the Health Science Center, are now incorporating the device in an investigational study at the university.

Dr. Anthony is the lead investigator of this study, which is the largest study of its kind launched this spring.

Brent Tarver, vice president for clinical affairs and technology development at OrthoAccel, is optimistic about the research potential.

"We are excited about this particular investigation because we expect it could lead to U.S. regulatory approval," Tarver said.

The study involves 34 patients ages 12 to 40 who need braces. Patients receive standard orthodontic treatment including any necessary extractions, and are fitted for braces at the Health Science Center Orthodontic Clinic. Once their braces are on, patients are provided with an AcceleDent device to use at home. The device, which stands about 4 inches high and features a wafer-thin mouthpiece attached to a small, sleek battery-operated handle, almost resembles a gizmo from a science fiction movie.

Patients are instructed to place the device in their mouth and bite down for 20 minutes a day during orthodontic treatment. While in the mouth, the device delivers a low-frequency pulsating vibration to the teeth. The vibration is not uncomfortable and barely noticeable to the patient. The researchers believe the vibratory forces, in combination with standard orthodontic treatment, will enhance the metabolism in bone tissue surrounding the teeth, thus allowing the teeth to move and straighten faster and more effectively.

Vibration therapy has been used in health care since the 1800s. More recently scientists across the world have documented positive results using the therapy in patients with osteoporosis, muscle loss and joint pain. Eight years ago, NASA scientists reported that muscles atrophy relatively quickly and bones lose mass during prolonged exposures to weightlessness. Therefore, they suggested their astronauts might prevent bone loss by standing on a lightly vibrating plate for 10 to 20 minutes each day while in orbit.

"We're taking this same concept and applying it to the orthodontic process," Dr. Pavlin said. "Teeth are surrounded by alveolar bone and are held in place by periodontal ligaments and gum tissue. These respond to applied orthodontic force, which allows for movement of the teeth through the bone. We believe the application of cyclic loading (controlled vibrations) will not only increase the rate of tooth movement, but will also create a solid foundation of bone and adjacent tissues in the mouth and result in more stable outcomes for orthodontic treatment. This approach would allow us to treat patients using either standard metal braces or the plastic removable braces called Invisalign, and to treat more complicated cases with more stable outcomes."

The AcceleDent device, which could significantly shorten orthodontic treatment, will be available on a limited basis in the United Kingdom in late 2009. Representatives at OrthoAccel predict the AcceleDent will be marketed in the United States in late 2010.

To learn more about the study or services provided by the Orthodontic Clinic at the UT Health Science Center Dental School, call (210) 567-0072.

The University of Texas Health Science Center at San Antonio is the leading research institution in South Texas and one of the major health sciences universities in the world. With an operating budget of $668 million, the Health Science Center is the chief catalyst for the $16.3 billion biosciences and health care sector in San Antonio's economy. The Health Science Center has had an estimated $36 billion impact on the region since inception and has expanded to six campuses in San Antonio, Laredo, Harlingen and Edinburg. More than 26,400 graduates (physicians, dentists, nurses, scientists and other health professionals) serve in their fields, including many in Texas. Health Science Center faculty are international leaders in cancer, cardiovascular disease, diabetes, aging, stroke prevention, kidney disease, orthopaedics, research imaging, transplant surgery, psychiatry and clinical neurosciences, pain management, genetics, nursing, dentistry and many other fields.

Source: University of Texas Health Science Center at San Antonio

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Re: New Device Could Shorten, Improve Orthodontic Treatment

this is a promising development. the long period of orthodontic treatment demotivates many patients and patient co-operation drops in the later stages in the latter stages of treatment.

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drsnehamaheshwari's picture
Joined: 16 Mar 2013
New Device Could Shorten, Improve Orthodontic Treatment
Magnetic resonance imaging (MRI) offers several advantages over conventional radiography when diagnosing dental abnormalities in children and for orthodontic treatment and surgical planning, according to a new study in the Journal of Oral and Maxillofacial Surgery (April 20, 2013).
Researchers from the University of Würzburg selected 16 patients (mean age, 10.8 years) from 1,500 orthodontic patients: three with a mesiodens, nine with supernumerary teeth other than a mesiodens, one with gemination, one with dilacerations, one with transmigration, and one with transposition. Three-dimensional images were acquired on a 1.5-tesla MRI system at measurement times of 4 to 5 minutes.
Using natural MRI contrast, the researchers were able to clearly delineate the teeth, dental pulp, mandibular canal, and cortical bone of each patient. In addition, the position and shape of malformed teeth could be assessed in all three spatial dimensions, they noted.
"MRI was found to be a well-tolerated imaging modality for the diagnosis of dental abnormalities in children and for orthodontic treatment and surgical planning," the study authors concluded. "Compared with conventional radiography, dental MRI provides the advantage of three-dimensionality and complete elimination of ionizing radiation, which is particularly relevant for repeated examinations in children."
That push back, combined with the actual price of gold reaching nearly $1,800 per ounce as recently as October and currently hovering around $1,500, is a "recipe for the unfortunate death of a restoration," according to Dr. DiTolla.
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