Faye Donald: Today, I'm going to show you how guided biofilm therapy, or GBT, works when we professionally clean a patient's mouth from start to finish. My job as a dental hygienist is to detect ...

Dental restoratives are a perfect surface for the prolific growth of bacterial biofilm cultures. S. gordonii in particular is a pioneering colonizer of tooth surfaces, allowing other bacteria to ...

These bacteria live in a biofilm — known as plaque — that sticks to the teeth, especially between teeth and below the gums. It is crucial to brush and floss your teeth to remove this biofilm ...

While many surfaces can host biofilms — the plaque on your teeth is a biofilm — plastics appear to provide an especially strong bond that attracts the most prolific bacteria, according to the ...

Almost all micro-organisms subsist in elaborate colonies that are embedded in biofilms of self-produced exopolymer matrices. The biofilm allows the micro-organisms to adhere to any surface ...

From plaque sticking to teeth to scum on a pond, biofilms can be found nearly everywhere. These colonies of bacteria grow on ...

Many are ditching chemical-laden toothpastes and embracing alternatives like activated charcoal, essential oil rinses, and ...

Anyone unaware of what biofilms are should know that brushing one’s teeth and receiving regular dental cleanings are recommended primarily to fight bacterial biofilms. Bacteria group together ...

or on the saliva-covered surface of your teeth. Amalgamations of single cells, biofilms grow and develop into unified life forms that can split back into their component cells under duress. Biofilms, ...

See the future of professional prophylaxis in action as Faye Donald delivers a live guided biofilm therapy (GBT) treatment.

Biofilms allow bacteria and other pathogens ... Also called dermal denticles, these are structurally homologous with vertebrate teeth. An interesting aspect about evolution is that it seeks ...

or on the saliva-covered surface of your teeth. Amalgamations of single cells, biofilms grow and develop into unified life forms that can split back into their component cells under duress.