Mouth to mouth tactic may stop dental decay

oral microbiome transplant
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University of Adelaide researchers are exploring if a unique transplant which involves moving good bacteria from one person’s mouth to another, possibly via a special toothpaste, could be the answer to improving dental health.

An oral microbiome transplant involves taking a sample of plaque bacteria from a super donor—someone who naturally has a healthy microbiome in their mouth—and transplanting it into the mouth of a patient with an unhealthy microbiome. 

“There are over 700 bacteria that live in the mouth which make up the microbiome,” A/Prof Peter Zilm from the Adelaide Dental School said.

“Why some people naturally have a healthy microbiome regardless of whether they go to the dentist regularly or not is a mystery.

“An oral microbiome transplant through a specially designed toothpaste or gel could improve dental health. This would be an easy way to boost good bacteria in the mouths of those who don’t have a healthy microbiome, protecting these people against dental decay and the nasty health conditions that can come with it.”

Working in collaboration with Penn State University, researchers have developed a screening tool to identify super donors along with a 3D flow cell which mimics the mouth environment, allowing researchers to maintain the microbiomes taken from super donors.

“Our pre-clinical work shows that we can keep at least 250 bacteria that are essential for preventing tooth decay alive for three months in a biobank,” A/Prof Zilm said.

“By building a biobank of good bacteria from super donors, we hope to develop a paste containing good bacteria that will hopefully improve the oral health of people who are more susceptible to tooth decay and associated conditions.”

Experts hope to secure funding to carry out further research into oral microbiome transplants, with the goal of moving to human trials within the next two years.

“If we can show that oral microbiome transplants are safe for humans, they could become a cost-effective solution to one of the nation’s most common chronic illnesses,” A/Prof Zilm said.

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