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April 13, 2004
By: Victor Nessbit
Website: http://www.teeth-whitening-smiles.com
Mercury Free Dental Material – Government To Develop Mercury-Free Dental Material
A mercury-free, direct filling alternative for conventional dental amalgams is being developed at the National Institute of Standards and Technology. The new restorative process uses metallic powders in a form that is easily applied to prepared tooth cavities by dentists using treatment procedures very
similar to those in current practice.
The dental material project is a collaborative effort between government and industry. The National Institute of Dental Research is contributing support for the program through the American Dental Association Health Foundation's Center for
Excellence. The ADAHF maintains the Paffenbarger Research Center at NIST.
A dental materials manufacturer, Dentsply International,
Milford, Del., has a cooperative research and development
agreement with NIST to help develop the new mercury-free
restorative material.
The new restorative process is based on NIST electrochemical
powder technology. The technique was invented by David S.
Lashmore, leader of the NIST Electrodeposition Group, and Moshe
P. Dariel, guest scientist from the David Ben-Gurion University,
Beer-Sheva, Israel.
The mercury-free dental material project offers us an
opportunity to transfer technology developed at NIST to industry
and meet a national need, said Lashmore.
He points out that the mercury content of amalgams used in
the overwhelming majority of dental restoratives continues to
raise concern with regard to their long-term effect on public
health and the environment. The new alloy will help reduce the
amount of mercury dispersed in the environment by dental waste.
Joyce Reese, NIDR program director for Biomaterials, Pulp
Biology and Dental Implants, notes that although there is no
scientific evidence linking mercury in amalgam to systemic
diseases, the new NIST mercury-free, dental restorative material
meets an important objective of the National Institute of Dental
Research to find alternative materials for conventional dental
amalgams.
Lashmore said that the principal goal of the NIST research
has been to develop a high-performance, mercury-free alloy that
will consolidate at body temperature in prepared tooth cavities.
The material involves the use of biocompatible metallic
powders such as silver-coated tin. These pairs of metals undergo
fast diffusion or combine to form an in-situ intermetallic
compound at body temperature.
The treatment of tooth cavities is quite simple. The dental
practitioner will mix the coated powders with an activating,
biocompatible liquid to form a slurry. The mixture is then
pressed into a prepared filling with conventional dental
instruments. After compaction, the material hardens into a
strong, mercury-free dental alloy.
Lashmore explains that even though silver and tin are the
principal ingredients, investigations are being conducted with
other formulations that may contain copper, gold, or small
amounts of other inert materials such as silver, alumina and
silicon carbide. He emphasizes that all of the materials under
study are free from mercury, indium or gallium, which are
commonly used today in dental amalgams.
According to Lashmore, the new direct filling restorative
material could be in dental offices within three years. It will
be tested both at NIST and by independent dental research
laboratories before undergoing review by the Food and Drug
Administration.
As a non-regulatory agency of the Commerce Department's
Technology Administration, NIST promotes U.S. ecomnomic growth by
working with industry to develop and apply technology,
measurements and standards.
Author Notes:
Victor Nessbit contributes and publishes news editorial to http://www.teeth-whitening-smiles.com.
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