Dent J (basel)

[Takako Dito]

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The novel coronavirus (COVID-19) pandemic has become a real challenge for healthcare providers around the world and has significantly affected the dental professionals in practices, universities and research institutions. The aim of this article was to review the available literature on the relevant aspects of dentistry in relation to COVID-19 and to discuss potential impacts of COVID-19 outbreak on clinical dentistry, dental education and research. Although the coronavirus pandemic has caused many difficulties for provision of clinical dentistry, there would be an opportunity for the dental educators to modernize their teaching approaches using novel digital concepts in teaching of clinical skills and by enhancement of online communication and learning platforms. This pandemic has also highlighted some of the major gaps in dental research and the need for new relevant knowledge to manage the current crisis and minimize the impact of such outbreaks on dentistry in the future. In conclusion, COVID-19 has had many immediate complications for dentistry of which some may have further long-term impacts on clinical practice, dental education and dental research.

The Dental trauma guide is here to help you with all your Dental trauma. The site covers treatment guidelines for primary and permanent teeth. The website is developed in cooperation between the Copenhagen University Hospital and the International Association of Dental Traumatology (IADT). Become certified DTG member to have access to all the advance content of The Dental Trauma Guide. And read our recommondation on how to use the Dental Trauma Guide.

The global phenomenon of dental trauma is estimated to affect 50-60% of the world's population (includingboth the primary and the permanent teeth). It is estimated the world has currently around 1 billion dentaltrauma victims with 60 million new patients each year.

An increase in the number of implants placed has led to a corresponding increase in the number of complications reported. The complications can vary from restorative complications due to poor placement to damage to collateral structures such as nerves and adjacent teeth. A large majority of these complications can be avoided if the implant has been placed accurately in the optimal position. Therefore, the aim of this in vitro pilot study was to investigate the effect of freehand (FH) and fully guided (FG) surgery on the accuracy of implants placed in close proximity to vital structures such as the inferior alveolar nerve (IAN). Cone-beam computed tomography (CBCT) and intraoral scans of six patients who have had previous dental implants in the posterior mandible were used in this study. The ideal implant position was planned. FG surgical guides were manufactured for each case. In this study, the three-dimensional 3D printed resin models of each of the cases were produced and the implants placed using FG and FH methods on the respective models. The outcome variables of the study, angular deviations were calculated and the distance to the IAN was measured. The mean deviations for the planned position observed were 1.10 mm coronally, 1.88 mm apically with up to 6.3 degrees' angular deviation for FH surgery. For FG surgical technique the mean deviation was found to be at 0.35 mm coronally, 0.43 mm apically with 0.78 degrees angularly respectively. The maximum deviation from the planned position for the apex of the implant to the IAN was 2.55 mm using FH and 0.63 mm FG. This bench study, within its limitations, demonstrated surgically acceptable accuracy for both FH and FG techniques that would allow safe placement of implants to vital structures such as the IAN when a safety zone of 3 mm is allowed. Nevertheless, a better margin of error was observed for FG surgery with respect to the angular deviation and controlling the distance of the implant to the IAN using R2 Gate system.

After graduating from Brown University, Dr. Cheifetz (pronounced SHAY-fits) began his dental career at the University of Pennsylvania School of Dental Medicine. Penn Dental chose him as a University Scholar due to his academic achievements, research and teaching interests, and his extensive volunteer work.

For some time, there has been consistent consumer demand for whiter, brighter teeth and an attractive smile.1-3 Professionally administered (in-office) tooth whitening, also known as dental bleaching, remains a popular esthetic procedure and can be performed using a wide range of techniques and application protocols. Another common approach is at-home whitening with custom-fitted trays, which patients use to apply professional-strength bleaching gel (for use at night or during the day). Numerous over-the-counter (OTC) whitening products (e.g., strips, gels, rinses, chewing gums, or paint-on films) are also widely available for self-application at home.4

Tooth (and dental) discoloration are terms used to describe any change in the color or translucency of a tooth,1 as well as discoloration in multiple teeth or the entire dentition. Tooth discolorations are typically classified as extrinsic, intrinsic, or a combination of both types.5

Extrinsic stains commonly result from an accumulation of colored compounds on enamel. Extrinsic discoloration is primarily associated with environmental factors or individual behaviors, such as tobacco use, exposure to metal salts (e.g., iron or copper), or the consumption of highly pigmented foods (e.g., dark fruits) or beverages (e.g., red wine, coffee, tea, or cola drinks).1, 6-11

Extrinsic tooth stains vary widely in color and severity, and can be exacerbated by lifestyle habits (e.g., smoking or chewing tobacco), poor oral hygiene, or frequent consumption of pigmented food or beverages.12, 13 A wide range of extrinsic stains can be effectively reduced with mechanical interventions such as brushing with a whitening toothpaste or professional prophylaxis.6, 7, 14 Some OTC whitening products (e.g., toothpastes, chewing gums) are effective primarily in removing extrinsic (surface) stains on enamel, and will not have a significant impact on intrinsic stains or the intrinsic color of the tooth.4, 15

Intrinsic stains occur inside the tooth (within the enamel or the underlying dentin), and can arise due to systemic causes such as genetic disorders (e.g., dentinogenesis imperfecta, amelogenesis imperfecta) or local factors during tooth development or after eruption (e.g., fluorosis).1, 16, 17 Aging is another common etiology of intrinsic discoloration. With increasing age, enamel becomes more translucent and thinner, which allows the yellower dentin to show through and the overall tooth color may darken.1, 18 Other causes of intrinsic discoloration include certain antibiotic use in childhood (e.g., tetracycline),19 caries, amalgam restorations, and pulpal hemorrhage, decomposition or necrosis.5, 7, 20 Intrinsic discoloration can also occur with prolonged use of antiseptic mouthrinse (e.g., chlorhexidine rinse).21

Reducing intrinsic stains involves a chemical reaction that changes the color of the tooth. The most common ingredients used in bleaching are carbamide peroxide and hydrogen peroxide, which are used at different concentrations depending on the products or regimens used.22

The bleaching action in chemically induced whitening is due primarily to the effects of carbamide peroxide, which releases about one-third of its content as hydrogen peroxide, a strong oxidizing agent.23, 24 Hydrogen peroxide diffuses easily through interprismatic spaces in the enamel, allowing for passage from enamel and dentin to pulp within 15 minutes of exposure.25, 26 The bleaching process is generally believed to occur when reactive oxygen molecules (generated from hydrogen peroxide) interact with organic chromophores (colored compounds) within enamel and dentin through a chemical oxidation process, which is influenced by various environmental factors (e.g., pH, temperature, light).17, 25, 27

The extent of whitening attained through bleaching may be influenced by the type of intrinsic stain being addressed. For example, brown stains due to fluorosis or tetracycline28, 29 may be more responsive to bleaching than white stains associated with fluorosis or orthodontic treatment, which may appear less noticeable as the background of the tooth lightens.30 The type of stain also can affect the length of and/or number of treatments required to arrive as close as possible to the desired result. For example, although stains due to tetracycline may be diminished, treatment can require three to four months of nightly treatment (on average).28, 31

Bleaching compounds in over-the-counter whitening products are peroxide-based and typically contain carbamide peroxide or hydrogen peroxide at lower concentrations than in-office or dentist-prescribed, at-home bleaching techniques. A variety of OTC options are available with products that include toothpastes, whitening strips, and gels painted directly on teeth or delivered in trays. Products that bear the ADA Seal of Acceptance (a voluntary program for OTC oral care products), indicating that the company has demonstrated that the product meets ADA Seal Program requirements for safety and effectiveness when used as directed, include toothpastes and whitening strips.

Whitening toothpastes primarily rely on abrasives for mechanical removal of extrinsic surface stains, though some contain low levels of peroxide to help lighten tooth color.7, 36, 37 A 2020 systematic review found limited evidence that whitening dentifrices had similar efficacy to paint-on gel but less efficacy than whitening strips, with comparable adverse effects (e.g., sensitivity, oral irritation).38 Most whitening strips rely primarily on peroxide to bleach teeth.33, 39

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