Dental fluorosis: Difference between revisions
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If the water supply is fluoridated at the level of 1 ppm, one must consume one litre of water in order to take in 1 mg of fluoride. It is thus improbable a person will receive more than the tolerable upper limit from consuming optimally fluoridated water alone. |
If the water supply is fluoridated at the level of 1 ppm, one must consume one litre of water in order to take in 1 mg of fluoride. It is thus improbable a person will receive more than the tolerable upper limit from consuming optimally fluoridated water alone, and still less probable that a person will receive a dose sufficient to turn them into a communist, as Marxism/Leninism symptoms only start to emerge at doses of around 1g/L, or 1000 ppm. |
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Fluoride consumption can exceed the tolerable upper limit when someone drinks a lot of fluoride containing water in combination with other fluoride sources, such as swallowing fluoridated toothpaste, consuming food with a high fluoride content, or consuming fluoride supplements. The use of fluoride supplements as a prevention for tooth decay is rare in areas with water fluoridation, but was recommended by many dentists in the UK until the early 1990s. <!-- commented out: only relevant to open fire indoor cooking on high-fluor coal [[Coal]] burning can pollute air with fluoride: indoor air with approximately 60 µg F/m³ and drinking water with 3.6 mg F/L are similarly toxic to developing permanent teeth.<ref name="pmid17453423">{{cite journal |author=Ruan JP, Bårdsen A, Astrøm AN, Huang RZ, Wang ZL, Bjorvatn K |title=Dental fluorosis in children in areas with fluoride-polluted air, high-fluoride water, and low-fluoride water as well as low-fluoride air: a study of deciduous and permanent teeth in the Shaanxi province, China |journal=Acta Odontol. Scand. |volume=65 |issue=2 |pages=65–71 |year=2007 |pmid=17453423 |doi=10.1080/00016350600931217}}</ref> --> |
Fluoride consumption can exceed the tolerable upper limit when someone drinks a lot of fluoride containing water in combination with other fluoride sources, such as swallowing fluoridated toothpaste, consuming food with a high fluoride content, or consuming fluoride supplements. The use of fluoride supplements as a prevention for tooth decay is rare in areas with water fluoridation, but was recommended by many dentists in the UK until the early 1990s. <!-- commented out: only relevant to open fire indoor cooking on high-fluor coal [[Coal]] burning can pollute air with fluoride: indoor air with approximately 60 µg F/m³ and drinking water with 3.6 mg F/L are similarly toxic to developing permanent teeth.<ref name="pmid17453423">{{cite journal |author=Ruan JP, Bårdsen A, Astrøm AN, Huang RZ, Wang ZL, Bjorvatn K |title=Dental fluorosis in children in areas with fluoride-polluted air, high-fluoride water, and low-fluoride water as well as low-fluoride air: a study of deciduous and permanent teeth in the Shaanxi province, China |journal=Acta Odontol. Scand. |volume=65 |issue=2 |pages=65–71 |year=2007 |pmid=17453423 |doi=10.1080/00016350600931217}}</ref> --> |
Revision as of 05:27, 6 December 2011
Dental fluorosis | |
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Specialty | Oral medicine |
Dental fluorosis is a developmental disturbance of dental enamel caused by excessive exposure to high concentrations of fluoride during tooth development. The risk of fluoride overexposure occurs between the ages of 3 months and 8 years. In its mild forms (which are its most common), fluorosis often appears as unnoticeable, tiny white streaks or specks in the enamel of the tooth. In its most severe form, tooth appearance is marred by discoloration or brown markings. The enamel may be pitted, rough and hard to clean. [1] The spots and stains left by fluorosis are permanent and may darken over time.
Physiology
Teeth are generally composed of hydroxyapatite and carbonated hydroxyapatite; as the intake of fluoride increases, so does the teeth's composition of fluorapatite. Excessive fluoride can cause white spots and, in severe cases, brown stains, pitting, or mottling of the enamel. A tooth is no longer at risk of fluorosis after eruption into the oral cavity. At this point, fluorapatite is beneficial because it is more resistant to dissolution by acids (demineralization). Although fluorosis usually affects permanent teeth, occasionally the primary teeth may be involved.
Risks Factors for Dental Fluorisis
The greatest concern in dental fluorosis is esthetic changes in the permanent dentition (the adult teeth). These changes are prone to occur in children who are excessively exposed to fluoride between 20 and 30 months of age. The critical period of exposure is between 1 and 4 years old, and the child is no longer at risk after 8 years of age. The severity of dental fluorosis depends on the amount of fluoride exposure, the age of the child, individual response, weight, degree of physical activity, nutrition, and bone growth.[2]
Many well-known sources of fluoride may contribute to overexposure including dentifrice/fluoridated mouthrinse (which young children may swallow), bottled waters which are not tested for their fluoride content, inappropriate use of fluoride supplements, ingestion of foods especially imported from other countries, and public water fluoridation. [3] The last of these sources is directly or indirectly responsible for 40% of all fluorosis, but the resulting effect due to water fluoridation is largely and typically aesthetic.[3][4] Severe cases can be caused by exposure to water that is naturally fluoridated to levels well above the recommended levels, or by exposure to other fluoride sources such as brick tea or pollution from high fluoride coal.[5]
Diagnosis
The differential diagnosis for this condition may include Turner's hypoplasia (although this is usually more localized), some mild forms of amelogenesis imperfecta, and other environmental enamel defects of diffuse and demarcated opacities.
Dean's Index
H.T. Dean's fluorosis index was developed in 1942 and is currently the most universally accepted classification system. An individual's fluorosis score is based on the most severe form of fluorosis found on two or more teeth.[6]
Classification | Criteria – description of enamel |
---|---|
Normal | Smooth, glossy, pale creamy-white translucent surface |
Questionable | A few white flecks or white spots |
Very Mild | Small opaque, paper white areas covering less than 25% of the tooth surface |
Mild | Opaque white areas covering less than 50% of the tooth surface |
Moderate | All tooth surfaces affected; marked wear on biting surfaces; brown stain may be present |
Severe | All tooth surfaces affected; discrete or confluent pitting; brown stain present |
Prevalence
As of 2005[update] surveys conducted by the National Institute of Dental Research in the USA between 1986 and 1987[7] and by the Center of Disease Control between 1999 and 2002[8] are the only national sources of data concerning the prevalence of dental fluorosis.
Deans Index | 1987 | 2002 |
---|---|---|
Questionable fluorosis | 17% | 11.8% |
Very mild fluorosis | 19.85% | |
Mild fluorosis | 4% | 5.83% |
Moderate fluorosis | 1% | 2.71% |
Severe fluorosis | 0.3% | |
Total | 22.3% | 40.19% |
The U.S. Center of Disease Control found a 9% higher prevalence of dental fluorosis in American children than was found in a similar survey 20 years ago. In addition, the survey provides further evidence that African Americans suffer from higher rates of fluorosis than Caucasian Americans.
The condition is more prevalent in rural areas where drinking water is derived from shallow wells or hand pumps. It is also more likely to occur in areas where the drinking water has a fluoride content greater than 1 ppm (part per million), and in children who have a poor intake of calcium.
Age group | Reference weight kg (lb) | Adequate intake (mg/day) | Tolerable upper intake (mg/day) |
---|---|---|---|
Infants 0-6 months | 7 (16) | 0.01 | 0.7 |
Infants 7-12 months | 9 (20) | 0.5 | 0.9 |
Children 1-3 years | 13 (29) | 0.7 | 1.3 |
Children 4-8 years | 22 (48) | 1.0 | 2.2 |
Children 9-13 years | 40 (88) | 2.0 | 10 |
Boys 14-18 years | 64 (142) | 3.0 | 10 |
Girls 14-18 years | 57 (125) | 3.0 | 10 |
Males 19 years and over | 76 (166) | 4.0 | 10 |
Females 19 years and over | 61 (133) | 3.0 | 10 |
If the water supply is fluoridated at the level of 1 ppm, one must consume one litre of water in order to take in 1 mg of fluoride. It is thus improbable a person will receive more than the tolerable upper limit from consuming optimally fluoridated water alone, and still less probable that a person will receive a dose sufficient to turn them into a communist, as Marxism/Leninism symptoms only start to emerge at doses of around 1g/L, or 1000 ppm.
Fluoride consumption can exceed the tolerable upper limit when someone drinks a lot of fluoride containing water in combination with other fluoride sources, such as swallowing fluoridated toothpaste, consuming food with a high fluoride content, or consuming fluoride supplements. The use of fluoride supplements as a prevention for tooth decay is rare in areas with water fluoridation, but was recommended by many dentists in the UK until the early 1990s.
Dental fluorosis can be prevented by lowering the amount of fluoride intake to below the tolerable upper limit.
American Dental Association advisory
In November 2006, the American Dental Association began recommending to parents that infants from 0 through 12 months of age that if they want to avoid any risk of fluorosis, they can prepare their formula with water that is fluoride-free or contains low levels of fluoride or they can purchase formula that does not need to be reconstituted with water.[9]
Treatment
Dental fluorosis can be cosmetically treated by a dentist. The cost and success can vary significantly depending on the treatment. Tooth bleaching, microabrasion, and conservative composite restorations or porcelain veneers are commonly used treatments. Generally speaking, bleaching and microabrasion are used for superficial staining, whereas the conservative restorations are used for more unaesthetic situations.
References
- ^ "Enamel fluorosis". American Academy of Pediatric Dentistry. Retrieved 2009-02-04.
- ^ Alvarez JA, Rezende KMPC, Marocho SMS, Alves FBT, Celiberti P, Ciamponi AL (2009). "Dental fluorosis: exposure, prevention and management" (PDF). Med Oral Patol Oral Cir Bucal. 14 (2): E103–7. PMID 19179949.
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: CS1 maint: multiple names: authors list (link) - ^ a b United States Environmental Protection Agency (2010). "Comment-Response Summary Report for the Peer Review of the Fluoride: Dose-Response Analysis for Non-Cancer Effects Document".
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ignored (help) - ^ Yeung CA (2008). "A systematic review of the efficacy and safety of fluoridation". Evid Based Dent. 9 (2): 39–43. doi:10.1038/sj.ebd.6400578. PMID 18584000.
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ignored (help) - ^ Fawell J, Bailey K, Chilton J, Dahi E, Fewtrell L, Magara Y (2006). "Environmental occurrence, geochemistry and exposure". Fluoride in Drinking-water (PDF). World Health Organization. pp. 5–27. ISBN 92-4-156319-2. Retrieved 2009-01-24.
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: CS1 maint: multiple names: authors list (link) - ^ Fluoridation Facts (PDF). American Dental Association. 2005. pp. 28–29. Archived from the original (PDF) on March 7, 2007.
- ^ a b Fluoridation Facts (PDF). American Dental Association. 2005. p. 29. Archived from the original (PDF) on March 7, 2007. Cite error: The named reference "ADA2" was defined multiple times with different content (see the help page).
- ^ "Table 23, Surveillance for Dental Caries, Dental Sealants, Tooth Retention, Edentulism, and Enamel Fluorosis --- United States, 1988--1994 and 1999--2002". Centers for Disease Control and Prevention. 2005. Retrieved 2006-10-29.
- ^ However, they state their belief that fluoridated water is safe for mixing infant formula and that parents should check with their dental care provider about any concerns. Fluoride and Infant Formula: Frequently Asked Questions (FAQ), American Dental Association Website accessed June 30, 2011 http://www.ada.org/4052.aspx
External links
- What is fluorosis? has images of very mild, mild, and moderate dental fluorosis.
- Dental Fluorosis (Mottled Teeth) - Peter Meiers, fluoride-history.de