Glycerine in Oral Care Products
Eric Jungermann, Norman O.V. Sonntag in Glycerine, 2018
Glycerine is employed as a formulation aid in both OTC and prescription items for care of the oral cavity. Primary applications are in dentifrices, oral rinses, and dental gels [1]. A dentifrice has been defined as a substance used with a toothbrush to clean the accessible surfaces of the teeth. Current dentifrices also play the important role of acting as vehicles for delivery to the oral cavity of therapeutic and cosmetic agents, such as fluoride for anticaries activity and pyrophosphates for antitartar effect. An oral rinse, or mouthwash, has historically been defined as a solution containing breath-sweetening, astringent, demulcent, detergent, or germicidal agents which is used for freshening or cleaning the mouth or for gargling. Today’s oral rinses are frequently the vehicles for the delivery of active agents, cosmetic or therapeutic, to the oral mucosa or dental hard tissues. The terms “oral rinse” and “dental rinse” are preferred to “mouthwash” by some according to their respective areas for use, viz. oral mucosa or the teeth, respectively. A new type of dental rinse was introduced to the market a few years ago, a prebrushing dental rinse, for rinsing prior to toothbrushing, to remove and loosen some dental plaque initially and leave it in condition for ready removal by the toothbrush subsequently. The term “dental gel” is usually used to distinguish a dosage form for the delivery of an anticaries agent to aid in the prevention of tooth decay. The dental gel does not contain dental abrasives. It is usually applied by the dentist or dental hygienist.
Dental Fluorosis
Colin Robinson, Jennifer Kirkham, Roger Shore in Dental Enamel, 2017
Fluoridated dentifrices constitute approximately 95% of all dentifrices in use.127 Studies have indicated that prior to the age of five or six years, children swallow rather than expectorate much of the dentifrice with which they brush.120-122 In the absence of other metal ions, nearly all of the ingested fluoride may be absorbed, primarily from the small intestine.123-126 This early ingestion of fluoride-containing toothpaste is responsible for the strong association between early use of fluoridated dentifrices and an increased risk of dental fluorosis.
Dentifrice Rheology
Laba Dennis in Rheological Proper ties of Cosmetics and Toiletries, 2017
Not more than three or four decades ago, a dentifrice, as referred to in this chapter, was simply a toothpaste used with a toothbrush to clean the accessible surfaces of the teeth. A second purpose was to introduce into the mouth materials (flavors) able to refresh the mouth and improve the aroma of the breath. Other agents were eventually also incorporated for a third reason, viz., therapy or special action.
Enhancement of chlorhexidine activity against planktonic and biofilm forms of oral streptococci by two Croton spp. essential oils from the Caatinga biome
Published in Biofouling, 2022
Brendda Miranda Vasconcelos, Antônio Mateus Gomes Pereira, Paulo Adenes Teixeira Coelho, Rafaela Mesquita Bastos Cavalcante, Daniela Santos Carneiro-Torres, Paulo Nogueira Bandeira, Felipe Ferreira da Silva, Tigressa Helena Soares Rodrigues, Geovany Amorim Gomes, Victor Alves Carneiro
Despite global efforts, the widespread prevalence of caries disease suggests that the antimicrobial methods used for biofilm control have limitations (Lee et al. 2016; Bescos et al. 2020). In particular, the prolonged use of the gold standard oral antiseptic chlorhexidine digluconate (CHX) against biofilm and oral infections can cause adverse effects such as cytotoxicity, genotoxicity, and resistant strain selection (Kaspar et al. 2019; Takenaka et al. 2019; Brookes et al. 2020). Thus, new approaches are necessary to replace or improve chemical anti-plaque agents present in mouth rinses or dentifrices to control microbial accumulation on teeth surfaces. Plant-derived products, such as essential oils (EOs), have attracted attention due to their ability to eradicate microorganisms and inhibit biofilm formation (Song et al. 2018; Carneiro et al. 2020; Albuquerque et al. 2021). Studies have shown that Eos can affect the bacterial cell wall and membrane structure, leading to increased bacterial permeability and resulting in the loss of cellular constituents (Oussalah et al. 2006; Nazzaro et al. 2013; Kachur and Suntres 2020). Several EO-producing plants with antimicrobial activity are widely distributed in Caatinga’s Brazilian biome, such as Croton spp. (Araújo et al. 2014; Cordeiro et al. 2015; Rocha et al. 2021).
Assessment of cytotoxic and genotoxic effects of conventional and whitening kinds of toothpaste on oral mucosa cells
Published in Acta Odontologica Scandinavica, 2018
Antonija Tadin, Lidia Gavic, Ana Zeravica, Klara Ugrin, Nada Galic, Davor Zeljezic
Toothpaste may contain chemicals that can have an adverse effect on oral tissue in humans. Their components are considered potentially harmful, and the risk of adverse effects is dependent on the concentration and duration of their contact with living tissue. Due to frequent application of toothpaste that occurs regularly over an extended period, it suggests that these dentifrices must be highly biocompatible, which can be assessed by conducting an epidemiological study. The micronucleus assay in cells of buccal exfoliates, one of the most convenient cytogenetic methods that permit in such studies the elucidation of the effects of potential genotoxic effect in a particular target tissue. Since it is a noninvasive technique and was proved to show high correlation with systemic health risks regarding carcinogenesis, it is highly recommended for evaluation of chromosome damage in the oral cavity [11,12]. The cells which are most prone to genotoxic damage are mitotically active mesenchymal cells in the basal layer of oral epithelium. In the course of mitosis primary chromosome damage is transduced and at the end appearing as micronucleus. Buccal cells maintain themselves by a continuous cell renewal, whereby new cells are produced in the basal layer by mitosis migrating to the surface and replacing those that are shed [13]. The optimal timing is between seven and 21 days after exposure, which is the period needed for micronucleus or other nuclear anomalies to appear in exfoliated cells. The peak expression may vary depending on the effects of toxic agents on the basal cell turnover rate [14,15].
In vivo evaluation of fluoride and sodium lauryl sulphate in toothpaste on buccal epithelial cells toxicity
Published in Acta Odontologica Scandinavica, 2019
Antonija Tadin, Lidia Gavic, Tanja Govic, Nada Galic, Nada Zorica Vladislavic, Davor Zeljezic
So far several studies have been conducted assessing the cytotoxicity and genotoxicity of toothpaste. They have justified the ever-rising concern about the possible adverse effects that may be triggered by different components of dentifrices [21–25]. None of them was conducted under in vivo conditions evaluating the toxicity concerning the presence of fluoride and SLS in toothpaste. Thus, this study aimed to evaluate possible cytogenetic damage in buccal epithelial cells of individuals using different commercial toothpaste with and without fluoride and SLS of the same manufactures and similar composition. Using the micronucleus assay, the effect of toothpaste on the buccal cells was monitored concerning the toothpaste usage period. The tested null-hypothesis was that no frequency increase should be detected in the cytogenetic parameters in oral mucosal cells caused by using fluoride and SLS containing toothpaste.
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