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Nanomedicines

Nanoparticle mouthwash could prevent tooth decay

Iron oxide particles and hydrogen peroxide bust biofilms on teeth in rat study

by Katharine Sanderson, special to C&EN
August 1, 2018 | A version of this story appeared in Volume 96, Issue 32

 

Micrographs of biofilms grown on rat tooth enamel.
Credit: Nat. Comm.
Biofilms (indicated by red and green) grown on rat tooth enamel (left) were broken up by a combination of iron oxide nanoparticles and hydrogen peroxide (right).

Sloshing a mouthwash of iron oxide nanoparticles around your mouth could someday save you a trip to the dentist. A new study in rats demonstrates that such a mouthwash can prevent and stop cavities by disrupting destructive bacterial biofilms that grow on teeth (Nat. Comm. 2018, DOI: 10.1038/s41467-018-05342).

The researchers, led by Hyun (Michel) Koo from the University of Pennsylvania School of Dental Medicine, used a formulation known as ferumoxytol, which consists of iron oxide nanoparticles coated with carboxymethyl dextran. Fermuoxytol is approved by the U.S. Food & Drug Administration for treating iron deficiency.

The team decided to test the teeth-protecting abilities of these iron oxide nanoparticles because they can break down hydrogen peroxide to create hydroxyl radicals that can disrupt biofilms. Koo and colleagues devised a test mouthwash therapy involving solutions of ferumoxytol and hydrogen peroxide. They used nanoparticle doses that were less than 1% of what is used to treat iron-deficiency, Koo says.

Twice a day over a period of three weeks, the researchers used both solutions to rinse the mouths of rats with cavities that mimic extreme childhood dental decay. Compared with animals that didn’t get the mouthwash, treated rats saw significant improvements in their dental decay. The mouthwash both stopped the progression of existing damage and prevented damage to smooth, healthy teeth.

The approach shows promise, says Zainab Hosseini-Doust, a bioengineer at McMaster University. “In most cases, the only effective way of eradicating a biofilm is physical removal of the infected biomaterial,” she says. “What’s interesting about this work is the ability of the developed nanoparticles to degrade the biofilm matrix from within.”

Hosseini-Doust would like to know more about how the nanoparticles interact with healthy oral biofilms. “The health of our teeth and oral cavity is highly dependent on the community of good bacteria living in our mouth. Any nonspecific antibacterial treatment will inevitably affect our good bacteria,” she says.

The team is now working to develop formulations with higher catalytic activity and, eventually, to test the efficacy of the mouthwash in humans, Koo says.

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