Acid erosion
Acid erosion | |
---|---|
Severe tooth wear of the lower teeth in a bulimic person. | |
Classification and external resources | |
Specialty | gastroenterology |
ICD-10 | K03.2 |
MeSH | D014077 |
Acid erosion, also known as dental erosion, is a type of tooth wear. It is defined as the irreversible loss of tooth structure due to chemical dissolution by acids not of bacterial origin. Dental erosion is the most common chronic disease of children ages 5–17,[1] although it is only relatively recently that it has been recognised as a dental health problem.[2] There is generally widespread ignorance of the damaging effects of acid erosion; this is particularly the case with erosion due to fruit juices, because they tend to be seen as healthy.[3][4] Erosion is found initially in the enamel and, if unchecked, may proceed to the underlying dentin.
The most common cause of erosion is by acidic foods and drinks. In general, foods and drinks with a pH below 5.0–5.7 have been known to trigger dental erosion effects.[5] Numerous clinical and laboratory reports link erosion to excessive consumption of drinks. Those thought to pose a risk are soft drinks, some alcohol and fruit drinks, fruit juices such as orange juice (which contain citric acid) and carbonated drinks such as colas (in which the carbonic acid is not the cause of erosion, but citric and phosphoric acid). Additionally, wine has been shown to erode teeth, with the pH of wine as low as 3.0–3.8.[5] Other possible sources of erosive acids are from exposure to chlorinated swimming pool water, and regurgitation of gastric acids.
Causes
Extrinsic acidic sources
Acidic drinks and foods lower the pH level of the mouth so consuming them causes the teeth to demineralise. Drinks low in pH levels that cause dental erosion include fruit juices, sports drinks, wine, beer and carbonated drinks . Orange and apple juices are common culprits among fruit juices. Carbonated drinks such as colas, lemonades are also very acidic, as are fruit-flavoured drinks and dilutables. Frequency rather than total intake of acidic juices is seen as the greater factor in dental erosion; infants using feeding bottles containing fruit juices (especially when used as a comforter) are therefore at greater risk of acid erosion.[6]
Saliva acts as a buffer, regulating the pH when acidic drinks are ingested. Drinks vary in their resistance to the buffering effect of saliva. Studies show that fruit juices are the most resistant to saliva's buffering effect, followed by, in order: fruit-based carbonated drinks and flavoured mineral waters, non-fruit-based carbonated drinks, sparkling mineral waters; Mineral water being the least resistant. Because of this, fruit juices in particular, may prolong the drop in pH levels.[7]
A number of medications such as vitamin C, aspirin and some iron preparations are acidic and may contribute towards acid erosion.[6]
Intrinsic acidic sources
Dental erosion can occur by non-extrinsic factors too. Intrinsic dental erosion is known as perimolysis, whereby gastric acid from the stomach comes into contact with the teeth.[8] People with diseases such as anorexia nervosa, bulimia, and gastroesophageal reflux disease (GERD) often suffer from this. GERD is quite common and an average of 7% of adults experience reflux daily.[8] The main cause of GERD is increased acid production by the stomach.[8] This is not exclusive to adults, as GERD and other gastrointestinal disorders may cause dental erosions in children.[9] Rumination also may cause acid erosion.[10][11]
Behaviour
Acid erosion often coexists with abrasion and attrition.[6] Abrasion is most often caused by brushing teeth too hard.[2]
Throthing or swishing acidic drinks around the mouth increases the risk of acid erosion.[6]
Diagnosis
There are many signs of dental erosion, including changes in appearance and sensitivity. One of the physical changes can be the color of teeth. There are two different colors teeth may turn if dental erosion is occurring, the first being a change of color that usually happens on the cutting edge of the central incisors. This causes the cutting edge of the tooth to become transparent.[12] A second sign is if the tooth has a yellowish tint. This occurs because the white enamel has eroded away to reveal the yellowish dentin.[12] A change in shape of the teeth is also a sign of dental erosion. Teeth will begin to appear with a broad rounded concavity, and the gaps between teeth will become larger. There can be evidence of wear on surfaces of teeth not expected to be in contact with one another.[12] If dental erosion occurs in children, a loss of enamel surface characteristics can occur. Amalgam restorations in the mouth may be clean and non-tarnished. Fillings may also appear to be rising out of the tooth, the appearance being caused when the tooth is eroded away leaving only the filling. The teeth may form divots on the chewing surfaces when dental erosion is occurring. This mainly happens on the first, second, and third molars. One of the most severe signs of dental erosion is cracking,[13] where teeth begin to crack off and become coarse.[12] Other signs include pain when eating hot, cold, or sweet foods. This pain is due to the enamel having been eroded away, exposing the sensitive dentin.[14]
Diagnosis based on optical properties
Based on the optical changes induced in eroded tissue by the lesions, in 2015 Koshoji et al also demonstrated in a novel method that using laser speckle images (LSI) it is possible to acquire information on the microstructure of the enamel and detect minimal changes, such as early non-carious lesions.[15][16] To produce the erosion, the samples were divided into four groups and immersed in 30 ml of a cola-based beverage (pH approximately 2.5) at room temperature. A representative image of the samples under white and laser illumination shows that although there are visible stains in the left portion of each sample due the dye from the cola beverage, structural changes are difficult to assess with the naked eye.
To differentiate the sound and eroded tissues, contrast analysis was performed of the speckle patterns in the images. Since this analysis is, in its essence, the ratio of the standard deviation and average intensity, the LASCA map of the lesion is generally higher than in sound tissue. This phenomenon is demonstrated in the LASCA maps which show the greater prevalence of dark blue on the right side, indicating sound tissue, and lower prevalence on the left side, indicating eroded tissue.[15][16] The contrast ratio of the LASCA maps demonstrates that laser speckle images are sensitive to even small changes in the microstructure of the surface.
Erosion is highly prevalent in people of all ages. However, an objective diagnostic procedure is still needed, thus the study of the laser speckle imaging for tooth enamel may provide the first low cost objective diagnostic method for this disease. The analysis of laser speckle imaging in the spatial domain is a powerful diagnostic technique that provides information on the surface microstructure of tooth enamel after an acid etching procedure using patterns and LASCA maps. In an erosion model, these patterns are associated with mineral loss from the enamel. This method has proven sensitive to 10 minutes of acid etching on tooth enamel, which is a lesion so incipient that is not likely to be detected in clinical practice even by a trained dentist, besides it is also sensitive to the erosion progression.[15][16]
Prevention and management
Preventive and management strategies include the following:[17]
- Avoid sweet and acid foods. Even low sugar contained in fruit is bad for the teeth since it is the sugar/acid exposure time which erodes the teeth, not the amount of sugar.
- Modifying the pH of the food or beverage contributing to the problem, or changing lifestyle to avoid the food or beverage.
- Rinsing immediately after drinking or eating.
- Drinking through a straw[18]
- Avoid abrasive forces. Use a soft bristled toothbrush and brush gently. Avoid brushing immediately after consuming acidic food and drink as teeth will be softened. Leave at least half an hour of time inbetween. Rinsing with water is better than brushing after consuming acidic foods and drinks.[6][8]
- Using a remineralizing agent, such as sodium fluoride solution in the form of a fluoride mouthrinse, tablet, or lozenge, immediately before brushing teeth.
- Applying fluoride gels or varnishes to the teeth.
- Drinking milk or using other dairy products.
- Dentine bonding agents applied to areas of exposed dentin[6]
- Use a neutralizing agent such as antacid tablets only as a last-resort. They have negative long-run effects.
- Treating the underlying medical disorder or disease.
See also
Further reading
- Adrian Lussi. Dental Erosion: From Diagnosis to Therapy. Karger Publishers, 2006. (ISBN 9783805580977)
References
- ↑ U.S. Department of Health and Human Services (8 August 2007). Preventing Chronic Diseases: Investing Wisely in Health. National Center for Chronic Disease Prevention and Health Promotion.
- 1 2 Dugmore, C.R; Rock W.P (13 March 2004). "A multifactorial analysis of factors associated with dental erosion" (PDF). British Dental Journal 196 (5): 283–6;discussion: 273. doi:10.1038/sj.bdj.4811041. PMID 15017418. Retrieved 2009-05-21.
- ↑ Beezy Marsh. "Fruit juice can cause tooth decay". Daily Mail. Retrieved 2009-05-21.
- ↑ "'Health juices' harm baby teeth". BBC News Online. 2 August 2007. Retrieved 2009-05-21.
- 1 2 Mandel, Louis. "Dental erosion due to wine consumption". American Dental Association. Retrieved 2008-01-03.
- 1 2 3 4 5 6 O'Sullivan, E.; Milosevic A. (November 2008). "UK National Clinical Guidelines in Paediatric Dentistry: diagnosis, prevention and management of dental erosion" (PDF). International Journal of Paediatric Dentistry 18 (Supplement 1): 29–28. doi:10.1111/j.1365-263X.2008.00936.x. PMID 18808545. Retrieved 2009-05-21.
- ↑ Edwards, M.; Creanor S.L.; Foye R.H.; Gilmour W.H. (December 1999). "Buffering capacities of soft drinks: the potential influence on dental erosion". Journal of Oral Rehabilitation 26 (12): 923–927. doi:10.1046/j.1365-2842.1999.00494.x. PMID 10620154. Retrieved 2009-05-21.
- 1 2 3 4 Gandara, B.K; E.L Truelove (October 1999). "Diagnosis and management of dental erosion". Journal of Contemporary Dental Practice 1 (1): 16–23. PMID 12167897. Retrieved 2009-05-21.
- ↑ Monagas, J; Suen A; Kolomensky A; Hyman PE (November 2013). "Gastrointestinal issues and dental erosions in children". Clinical Pediatrics 52 (11): 1065–1066. doi:10.1177/0009922812460429. PMID 22984193. Retrieved 2014-02-08.
- ↑ William B. Carey (editor), Allen C. Crocker, William L. Coleman, Heidi M. Feldman, Ellen Roy Elias (2009). Developmental-behavioral pediatrics (4th ed.). Philadelphia, PA: Saunders/Elsevier. p. 634. ISBN 9781416033707.
- ↑ Adrian Lussi (2006). Dental erosion from diagnosis to therapy ; 22 tables. Basel: Karger. p. 120. ISBN 9783805580977.
- 1 2 3 4 Acid Attack. Academy of General Dentistry. 6 February 2008.
- ↑ The Cleveland Clinic Department of Dentistry. Dental Health: Tooth Sensitivity. WebMD. Retrieved 2008-03-09.
- ↑ Davenport, Tammy (14 September 2007). "Signs and Symptoms of Tooth Erosion.". About.com. Retrieved 2008-03-09.
- 1 2 3 4 5 Koshoji, Nelson H.; Bussadori, Sandra K.; Bortoletto, Carolina C.; Prates, Renato A.; Oliveira, Marcelo T.; Deana, Alessandro M. (2015-02-13). "Laser Speckle Imaging: A Novel Method for Detecting Dental Erosion". PLoS ONE 10 (2): e0118429. doi:10.1371/journal.pone.0118429. PMC 4332687. PMID 25679807.
- 1 2 3 Koshoji, Nelson H.; Bussadori, Sandra K.; Bortoletto, Carolina C.; Oliveira, Marcelo T.; Prates, Renato A.; Deana, Alessandro M. "Analysis of eroded bovine teeth through laser speckle imaging". Lasers in Dentistry XXI. doi:10.1117/12.2075195.
- ↑ Amaechi BT, Higham SM; Higham (2005). "Dental erosion: possible approaches to prevention and control". J Dent 33 (3): 243–52. doi:10.1016/j.jdent.2004.10.014. PMID 15725524.
- ↑ Edwards, M.; R A Ashwood, S J Littlewood, L M Brocklebank & D E Fung (12 September 1998). "A videofluoroscopic comparison of straw and cup drinking: the potential influence on dental erosion". British Dental Journal 185 (5): 244–249. doi:10.1038/sj.bdj.4809782. PMID 9785633. Retrieved 2009-05-21.
External links
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