[Mouthwash solutions containing microencapsulated natural extracts: Clinical results on dental plaque and gingivitis]. / Bains de bouche aux extraits naturels microencapsulés : résultats cliniques sur la plaque dentaire et la gingivite.

INTRODUCTION: New mouthwash solutions containing microencapsulated natural extracts have been developed. Besides antiseptic activity, these solutions have antioxidant and immunoregulatory properties on oral tissues. The objective of this preliminary clinical study was to assess the efficiency of a mouthwash containing microencapsulated natural extracts (GingiNat, LoB5 Foundation, Paris, France) on gingivitis. PATIENTS AND METHODS: Twenty volunteers (37 + or - 2 years) with significant gingivitis (bleeding when tooth-brushing) used a 6% GingiNat mouthwash solution, two to three times per day (according to oral hygiene habits) for 21 days in addition to their usual oral care. Each volunteer was examined at day 0, 4, 7 and 21. The Löe and Silness Plaque Index, the Russel Periodontal Index, a breath index (halitosis), and oral tissue tolerance were assessed. Finally, each volunteer filled in a daily follow-up form and answered a questionnaire on tolerance and acceptability. RESULTS: A significant decrease of the dental plaque index was observed on day 4, 7, and 21, in respectively 29, 48 and 71% of volunteers. This decrease reached 18% on day 4 (p=0.014), 32% on day 7 (p=0.002), and 47% on day 21 (p<0.001). A significant decrease of the periodental index was observed on day 4, 7 and 21, in respectively 52, 81 and 95% of volunteers. This decrease reached 30% (p=0.001) on day 4, 49% (p<0.001) on day 7, and 78% (p<0.001) on day 21. A significant improvement of the breath index was noted on day 4, 7, and 21, in respectively 43, 52 and 48% of volunteers. This improvement reached 29% (p=0.004) on day 4, 35% (p=0.001) on day 7, and 32% (p=0.002) on day 21. The mouthwash was well tolerated. The patients liked its effectiveness and organoleptic properties. All patients expressed the wish to continue using this solution. DISCUSSION: The GingiNat mouthwash solution at 6% had a significant efficiency on plaque, gingivitis, and halitosis after 21 days of use. This makes it a good complementary treatment for gingivitis. Tolerance and acceptability were good despite the long and repeated use. Further studies are needed to have a detailed analysis of its efficiency in the long run and on patients presenting with various forms of periodontitis.

[Mouthwash solutions containing microencapsuled natural extracts: In vitro evaluation of antioxidant properties (dental plaque and gingivitis)]. / Bains de bouche aux extraits naturels microencapsulés : évaluation in vitro des propriétés antioxydantes (plaque dentaire et gingivite).

INTRODUCTION: New mouthwash solutions containing microencapsulated natural extracts were developed to provide both antiseptic activity and in depth treatment of oral tissues, due to their antioxidant and immunoregulatory properties. The objective of this study was to quantify the antioxidant action of the GingiNat solution (LoB5 Foundation, Paris, France) in an in vitro cell model. MATERIALS AND METHODS: Diluted GingNat solutions (0.12%, 0.06% and 0.012%) were put in contact with Jurkat type human lymphoid cells in basal radical state (cells at rest) and in provoked oxidative stress conditions (after an UVA+UVB irradiation). The lipid peroxidation was quantified by flow cytometry using a fluorescent probe. RESULTS: The diluted GingNat solutions at 0.12%, 0.06%, and 0.012% showed a significant antioxidant effect with respectively 122.9%, 117.8% and 119.3% on average. The difference was statistically significant compared to controls for the three concentrations without any significant difference among them. This antioxidant effect was even more significant when cells were in oxidative stress with respectively 155.3%, 139.3%, and 132.5% on average. There was a significant difference between the tested concentrations (p<0.01). DISCUSSION: These first in vitro results confirmed the antioxidant properties of the GingiNat solution. These antioxidant properties are significantly higher at stronger concentrations. Further studies are required to analyze the influence of microencapsulation on these results. Clinical trials are needed to confirm these antioxidant properties.

[Mouthwash solutions with microencapsuled natural extracts: Efficiency for dental plaque and gingivitis]. / Bains de bouche aux extraits naturels microencapsulés : effets sur la plaquedentaire et la gingivite.

Mouthwash solutions are mainly used for their antiseptic properties. They currently include synthetic agents (chlorhexidine, triclosan, etc.) or essential oils (especially Listerine). Many natural extracts may also be used. These associate both antiseptic effects and direct action on host response, due to their antioxidant, immunoregulatory, analgesic, buffering, or healing properties. The best known are avocado oil, manuka oil, propolis oil, grapefruit seed extract, pycnogenol, aloe vera, Q10 coenzyme, green tea, and megamin. The development of new technologies, such as microencapsulation (GingiNat concept), may allow an in situ slow release of active ingredients during several hours, and open new perspectives for mouthwash solutions.

Re-establishment of the atomic composition and the oxide structure of contaminated titanium surfaces by means of carbon dioxide laser and hydrogen peroxide: an in vitro study.

BACKGROUND: In clinical situations with peri-implant bone resorption, re-integration of the exposed implant surface is sometimes preferable, which requires a clean surface. Previous investigations have shown that cleaning of contaminated titanium surfaces using chemical and abrasive methods is difficult. PURPOSE: The aim of this investigation was to evaluate the efficacy of different combinations of chemical and physical methods (citric acid, hydrogen peroxide, and carbon dioxide [CO2] laser irradiation) for removal of contaminants and subsequent reconstruction of the surface oxide of intraorally contaminated titanium foils. MATERIALS AND METHODS: Commercially pure titanium foils (99.6%, 5 x 5 mm in size) were contaminated by placement on dentures in volunteering patients, simulating a peri-implantitis situation. The contaminated foils and clean control foils were treated by seven and six combinations of citric acid, hydrogen peroxide, and CO2 laser irradiation, respectively. The effect of the cleaning procedures was evaluated by x-ray photoelectron spectroscopy (XPS) and scanning electron microscopy (SEM). RESULTS: The initial elemental composition of the contaminated foils was 70% carbon (C), 20% oxygen (O), 10% nitrogen (N), and only traces of titanium (Ti) (< 1%). One treatment proved to be more effective than the others: irradiations by 5-second cycles of superpulsed CO2 laser at a power of 7 W, 10-millisecond pulse width, and with an 80-Hz frequency on a wet surface, followed by repeated application of supersaturated citric acid for 30 seconds, each time followed by rinsing with ultrapure water until all tissue remnants had been removed. Finally, hydrogen peroxide of 10-mM concentration was added to the implant surface and evaporated by CO2 laser at the same settings. This treatment protocol resulted in 10% Ti, 45% O, 41% C, and 2 to 3% N, a composition comparable to that of unused foils: 9% Ti, 40% O, 48% C, and traces of N and chlorine (CI). X-ray photoelectron spectroscopy profiles showed that the thickness of the surface oxide was restored and even augmented with this protocol for treatment of contaminated titanium. CONCLUSION: A combination of citric acid, hydrogen peroxide, and CO2 laser irradiation seems to be effective for cleaning and reestablishment of the atomic composition and oxide structure of contaminated titanium surfaces.