Effects of stannous fluoride dentifrice on gingival health and oxidative stress markers: a prospective clinical trial.

Background: Periodontal disease results in oral dysbiosis, increasing plaque virulence and oxidative stress. Stannous fluoride (SnF) binds lipopolysaccharides to reduce plaque virulence. This study prospectively assessed SnF effects on oxidative stress in adults with gingivitis.

Stannous fluoride forms aggregates between outer and inner membranes leading to membrane rupture of and .

Objective: Stannous has been shown to bind to free lipopolysaccharides, thus preventing them from binding to TLR receptors. This study was undertaken to determine the histomorphological mechanism of stannous binding to anaerobic bacteria.

Methods: Two bacteria associated with gingivitis and advanced periodontal disease, () and , were cultured in 25-1,000 μM of stannous fluoride and stannous chloride for 48 h.

Virucidal Activity of Over-the-Counter Oral Care Products Against SARS-CoV-2.

Purpose: The oral cavity is an important entry point for SARS-CoV-2 infection. This study tested whether four commercially available mouthrinses and dentifrices have in vitro virucidal activity against SARS-CoV-2 (=4 log10 reduction in viral titer).

Materials And Methods: One part of stock SARS-CoV-2 virus plus one part 0.

Subgingival uptake and retention of stannous fluoride from dentifrice: Gingival crevicular fluid concentrations in sulci post-brushing.

Purpose: To examine the delivery of stannous fluoride to subgingival sulci following toothpaste use in a clinical population.

Methods: This was a controlled, single-site study. 23 subjects with at least 20 dental pockets, 2-4 mm with bleeding, who had not used a stannous fluoride dentifrice in the last 3 months were enrolled.

Hair coloring systems delivering color with reduced fiber damage.

The possible metal-induced formation of free radical species such as the hydroxyl radical (HO*) during the use of permanent hair coloring products has been demonstrated. These highly reactive species are formed from the reaction of hydrogen peroxide with redox metals such as copper, which are thought to be absorbed by the hair from the from-the-tap wash water. Formation of such radical species has been shown to lead to measurable keratin fiber damage.

Phenolic antibacterials from Piper betle in the prevention of halitosis.

Piper betle L. (Piperaceae) leaves which are traditionally used in India and China in the prevention of oral malodor was examined by bioassay-guided fractionation to yield allylpyrocatechol (APC) as the major active principle which showed promising activity against obligate oral anaerobes responsible for halitosis. The biological studies with APC indicated that the potential to reduce methylmercaptan and hydrogen sulfide was mainly due to the anti-microbial activity as established using dynamic in vitro models.