Nanodiamonds Might Prevent
Tooth Loss after Root Canals
UCLA Dentistry research finds that the tiny particles strengthen the compound used to fill teeth and ward off infection
Brianna Aldrich, UCLA, October 16, 2015
Tooth Loss after Root Canals
UCLA Dentistry research finds that the tiny particles strengthen the compound used to fill teeth and ward off infection
Brianna Aldrich, UCLA, October 16, 2015
People undergoing root canals may have gained a powerful, if
tiny, new ally. Researchers from the UCLA School of Dentistry have found that
using nanodiamonds to fortify a material used in the procedure could
significantly improve outcomes for patients.
A paper on their research is published in the current issue
of the peer-reviewed journal ACS Nano.
Nanodiamonds are tiny particles formed as byproducts of
diamond refining and mining. Thousands of times smaller than the width of a
human hair, they have been widely explored for use in dentistry, cancer
therapy, imaging and regenerative medicine, among other applications.
Each year, more than 15 million root canal procedures are
performed in the United
States
In addition, traditional gutta percha has certain
shortcomings, including a limited capacity to ward off infection and
less-than-optimal rigidity.
To overcome those issues, the UCLA team developed and tested
two types of reinforced gutta percha: One strengthened with nanodiamonds and
another strengthened with nanodiamonds that had been pre-loaded with
antibiotics.
To evaluate the first type, Sue Vin Kim and Adelheid Nerisa
Limansubroto, study co-authors who are UCLA Dentistry students, filled actual
teeth from human patients. Using conventional radiography and micro-computed
tomography, or micro-CT, they showed that the nanodiamond-enhanced gutta percha
could be used to fill the tooth. Like the traditional formulation, the
nanodiamond-enhanced compound did leave small gaps in the canal — where harmful
bacteria could grow — but the CT imaging showed that the enhanced material
filled the space just as effectively as traditional gutta percha.
“Validating this novel material in teeth extracted from
patients serves as a strong foundation for the potential translation of
nanodiamond-reinforced gutta percha toward clinical testing,” said Dean Ho, a
senior author of the study and a professor of oral biology and medicine and
co-director of UCLA Dentistry’s Jane and Jerry Weintraub
Center
In the research’s second phase, the scientists tested
nanodiamonds that had been loaded with amoxicillin, a broad-spectrum antibiotic
used to combat infection. The drug-reinforced nanodiamonds, when combined with
the gutta percha, effectively prevented bacteria growth.
“The nanodiamond-enhanced gutta percha combines many desirable
properties into a single platform, including vastly improved mechanical
characteristics and the ability to combat bacterial infection following a root
canal,” said Dong-Keun Lee, a postdoctoral scholar in Ho’s lab.
The study involved UCLA researchers with expertise in a wide
range of disciplines — materials science, nanotechnology, drug delivery,
toxicology, oral radiology, endodontics, microbiology and other fields.
“Through their ingenuity and collaboration, Professor Ho’s
team is poised to transform the way that dentistry is practiced,” said Dr.
No-Hee Park, dean of UCLA Dentistry and a co-author of the study.
During the next two years, the team plans optimize the
formulation of the nanodiamond-reinforced gutta percha and begin clinical
trials at UCLA.
Ho is also a professor of bioengineering and member of the UCLA Jonsson
Comprehensive Cancer
Center
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