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Types of teeth

Molars are used for grinding up foods
Carnassials are used for slicing food. In carnivores only.
Premolars are similar to molars but smaller and sometimes called "bicuspids"
Canines are used for tearing apart foods and sometimes called "cuspids"
Incisors are used for cutting foods

Types of tissue in teeth

In Humans

Enamel is a hard outer layer consisting primarily of calcium and phosphate in the form of hydroxyapatite.
Dentin is the inner layer, the bulk of the tooth.
Pulp is the core, containing nerves and blood vessels.
Cementum is the thin layer around the root; a bone-like material which connects the teeth to the jaw.

In Aardvarks

Teeth lack enamel and have many pulp tubules, hence the name of the order Tubulidentata.

Teeth (singular, tooth) are structures found in the jaws of many vertebrates. The primary function of teeth is to tear and chew food, and in some animals, particularly carnivores, for fighting and/or defence. The roots of the teeth are covered by gums. Adult teeth naturally darken with age as the pulp within the tooth shrinks and dentin is deposited in its place.

Teeth are among the most distinctive features of mammal species and fossils. Paleontologists use them to identify fossil species and their relationships. The shape of the teeth is related to the animal's diet. For example, plant matter is hard to digest, so herbivores have many molars for chewing. Carnivores need canines to kill and tear meat.

While humans develop two sets of teeth throughout life (diphyodont), some animals develop only one set (monophyodont) or develop many (polyphyodont). Sharks, for example, grow a new set of teeth every two weeks to replace worn teeth. Rodent teeth grow and wear away continually through the animal's gnawing, maintaining approximately constant length.

Human teeth

Humans are diphyodont, meaning that they develop two sets of teeth throughout life. The first set (the "baby," "milk," "primary" or "deciduous" set) normally starts to appear at about six months of age, although some babies are born with one or more visible teeth, known as neonatal teeth. Normal eruption of teeth starting at about six months is known as teething and can be quite painful for an infant. Human children have 20 deciduous teeth evenly distributed across the mouth's quadrants. Each quadrant of five teeth has a:

central incisor
lateral incisor
cuspid (canine)
first molar
second molar

The second, permanent set of teeth consists of 32 teeth. Twenty-eight of them appear between the ages of about 6 and 12 years. Secondary teeth do not push deciduous teeth out of their sockets; instead, a group of cells (odontoclasts) forms in front of tip of second tooth and dissolves the base of first tooth. Finally, the first tooth is held in place only by tissues of gum. Deciduous molars are replaced by premolars. The third molars (the wisdom teeth) are the final teeth to erupt, usually around age 20. However, it is common for the wisdom teeth not to erupt at all (they are congenitally missing); this is often the case in small jaws without room to support the extra teeth. It is possible, though rare, for a person to have fourth molars, and there have been instances where fifth molars have been present in the dentition. [1]

Permanent teeth are evenly distributed across the mouth's quadrants. Each quadrant of eight teeth has a:

central incisor (upper jaw: maxillary central incisor; lower jaw: mandibular central incisor)
lateral incisor (upper jaw: maxillary lateral incisor; lower jaw: mandibular lateral incisor)
cuspid (canine) (upper jaw: maxillary canine; lower jaw: mandibular canine)
first premolar (bicuspid) (upper jaw: maxillary first premolar; lower jaw: mandibular first premolar)
second premolar (bicuspid) (upper jaw: maxillary second premolar; lower jaw: mandibular second premolar)
first molar (upper jaw: maxillary first molar; lower jaw: mandibular first molar)
second molar (upper jaw: maxillary second molar; lower jaw: mandibular second molar)
third molar (wisdom teeth) (upper jaw: maxillary third molar; lower jaw: mandibular third molar)

The permanent set may last for life if cared for properly through a regular program of dental hygiene, including regular brushing and professional cleaning by a dentist or hygienist. Teeth that are susceptible to decay may be sealed for additional protection.

Teeth are attached to the underlying bone of the jaw via the periodontal ligament, though the teeth themselves are not made of bone. The white part of the tooth, which can be seen in the mouth, is the enamel. Immediately one to three mm below the enamel is a slightly softer, yellow tissue called dentin. Dentin is supported by the pulp (commonly called 'the nerve', although it contains many other structures which are not nerves), which lies in the center of the tooth. The teeth's composition is specialized to resist the harsh environment of the oral cavity and withstand the large forces imposed upon them by mastication, or chewing.

Dentists use several different notation systems to refer to a specific tooth. The three most commons systems are the Universal numbering system, the Palmer Notation Method, and the two-digit FDI World Dental Federation notation which is widely used internationally [2]. Dentists sometimes refer to the inner surface of teeth as the lingual surface (meaning towards the tongue), and the outer surface as the labial surface (meaning towards the lips) or "buccal" (meaning towards the cheek). Other terms are mesial (toward the midline), distal (away from the midline), occlusal (the top surface), incisal (the cutting surface), "gingival" (toward the gumline), and "pulpal" (toward the center).

Roots

The usual numbers of roots are:

1 - incisors, canines, lower premolars, and second upper premolars
2 - first upper premolars
3 - lower and upper molars (often two fused together, but still distinct roots)

Parts

Enamel

Enamel is the hardest and most highly mineralized substance of the body, and with dentin, cementum, and dental pulp is one of the four major tissues which make up the tooth.^[1] It is the normally visible dental tissue of a tooth and must be supported by underlying dentin. Ninety-six percent of enamel consists of mineral, with water and organic material composing the rest.^[2] The normal color of enamel varies from light yellow to grayish white. At the edges of teeth where there is no dentin underlying the enamel, the color sometimes has a slightly blue tone. Since enamel is semitranslucent, the color of dentin and any restorative dental material underneath the enamel strongly affects the appearance of a tooth. Enamel varies in thickness over the surface of the tooth and is often thickest at the cusp, up to 2.5 mm, and thinnest at its border, which is seen clinically as the cementoenamel junction (CEJ).^[3]

Enamel's primary mineral is hydroxyapatite, which is a crystalline calcium phosphate.^[4] The large amount of minerals in enamel accounts not only for its strength but also for its brittleness.^[5] Dentin, which is less mineralized and less brittle, compensates for enamel and is necessary as a support.^[4] Unlike dentin and bone, enamel does not contain collagen. Instead, it has two unique classes of proteins called amelogenins and enamelins. While the role of these proteins is not fully understood, it is believed that they aid in the development of enamel by serving as a framework support, among other functions.^[6]

Dentin

Dentin is the substance between enamel or cementum and the pulp chamber. It is secreted by the odontoblasts of the dental pulp. The formation of dentin is known as dentinogenesis. The porous, yellow-hued material is made up of 70% inorganic materials, 20% organic materials, and 10% water. Because it is softer than enamel, it decays more rapidly and is subject to severe cavities if not properly treated, but dentin still acts as a protective layer and supports the crown of the tooth.

Dentin is a mineralized connective tissue with an organic matrix of collagenous proteins. Dentin has microscopic channels, called dentinal tubules, which radiate outward through the dentin from the pulp cavity to the exterior cementum or enamel border. These canals have different configurations in different species and their diameter ranges between 0.8 and 2.2 micrometres. Although they may have tiny side-branches, they do not intersect with each other. Their length is dictated by the radius of the tooth. The three dimensional configuration of the dentinal tubules is under genetic control.

Cementum

Cementum is a specialized bony substance covering the root of a tooth. It is approximately 45% inorganic material (mainly hydroxyapatite), 33% organic material (mainly collagen) and 22% water. Cementum is excreted by cementoblasts within the root of the tooth and is thickest at the root apex. Its coloration is yellowish and it is softer than either dentin or enamel. The principle role of cementum is to serve as a medium by which the periodontal ligaments can attach to the tooth for stability. At the cementoenamel junction, the cementum is acellular due to its lack of cellular components, and this type covers approximately ⅓ - ½ of the root. The more permeable form of cementum, cellular cementum, covers ⅓ - ½ of the root apex, where it binds to the dentin.

Tooth decay

Plaque

Plaque is a biofilm consisting of large amounts of various bacteria which forms on teeth. If not removed regularly, it can lead to dental cavities (caries) or periodontal problems (such as gingivitis). Given time, plaque can mineralize along the gingiva, forming tartar. The microorganisms that form the biofilm are almost entirely bacteria (mainly streptococcus and anaerobes), with the composition varying by location in the mouth. Streptococcus mutans is the most important bacteria associated with dental caries.

Certain bacteria in the mouth live off the remains of foods, especially sugars and starches. In the absence of oxygen they produce lactic acid, which dissolves the calcium and phosphorus in the enamel. This process, known as "demineralisation", leads to tooth destruction. Saliva gradually neutralises the acids which cause the pH of the tooth surface to rise above the critical pH. This causes 'remineralisation', the return of the dissolved minerals to the enamel. If there is sufficient time between the intake of foods (two to three hours) then the impact is limited and the teeth can repair themselves. Nonetheless, in the presence of plaque, saliva is unable to penetrate through the plaque to neutralize the acid produced by the bacteria.

Caries (Cavities)

Dental caries, also described as "tooth decay" or "dental cavities", is an infectious disease which damages the structures of teeth.^[7] The disease can lead to pain, tooth loss, infection, and, in severe cases, death. There is a long history of dental caries, with evidence showing the disease was present in the Bronze, Iron, and Medieval ages but also prior to the neolithic period.^[8] The largest increases in the prevalence of caries have been associated with diet changes.^[8] ^[9] Today, it remains one of the most common diseases throughout the world. In the United States, dental caries is the most common chronic childhood disease, being at least five times more common than asthma.^[10] Countries that have experienced an overall decrease in cases of tooth decay continue to have a disparity in the distribution of the disease.^[11] Among children in the United States and Europe, 60-80% of cases of dental caries occur in 20% of the population.^[12]

Tooth decay is caused by certain types of acid-producing bacteria which cause the most damage in the presence of fermentable carbohydrates such as sucrose, fructose, and glucose.^[13]^[14] The resulting acidic levels in the mouth affect teeth because a tooth's special mineral content causes it to be sensitive to low pH. Depending on the extent of tooth destruction, various treatments can be used to restore teeth to proper form, function, and aesthetics, but there is no known method to regenerate large amounts of tooth structure. Instead, dental health organizations advocate preventative and prophylactic measures, such as regular oral hygiene and dietary modifications, to avoid dental caries.^[15]

Tooth care

Oral hygiene is the practice of keeping the mouth clean, and is means of prevention from dental caries, gingivitis, periodontal disease, bad breath, and other dental disorders. If you take care of your teeth properly, then you might end up with well cool teeth. Examples of people with such teeth are Lucy and Me. It consists of both professional and personal care. Regular cleanings, usually done by dentists and dental hygienists, are recommended to remove tartar (mineralized plaque) that may develop even with careful brushing and flossing. Professional cleaning includes tooth scaling, using various instruments or devices to loosen and remove deposits from the teeth.

Regular brushing is recommended by healthcare professionals twice a day in order to prevent formation of plaque and tartar. ^[15]. A toothbrush is able to remove plaque on most surfaces of the teeth except for areas between teeth. As a result, flossing is also considered a necessity to maintain oral hygiene. When used correctly, dental floss removes plaque from areas which could otherwise develop caries. The purpose of cleaning teeth is to remove plaque, which consists mostly of bacteria.^[16] Electric toothbrushes are not considered more effective than the manual variety.^[17] The most important advantages of electric toothbrushes is the ability to aid people with dexterity difficulties, such as those associated with rheumatoid arthritis.

In addition, fluoride therapy is often recommended to protect against dental caries. It has been demonstrated that water fluoridation and fluoride supplements decrease the incidence of dental caries. Fluoride helps prevent dental decay by binding to the hydroxyapatite crystals in enamel.^[18] The incorporated fluoride makes enamel more resistant to demineralization and, thus, resistant to decay.^[19] Topical fluoride is also recommended to protect the surface of the teeth. This may include a fluoride toothpaste or mouthwash. Many dentists include application of topical fluoride solutions as part of routine visits.

Dentures and "false" teeth

In societies that have high sugar diets, tooth decay can damage teeth badly enough that they need to be removed. This leads to the creation of replacement teeth such as dentures and other tooth replacements.

Some of the earliest artificial teeth were made by the Etruscans and their use was adopted in Ancient Rome for the wealthy citizens who often dined on food containing damaging sugars.

Abnormalities of the dentition

Amelogenesis imperfecta — a condition in which the tooth's primary surface, the enamel, does not form properly or at all.
Dentinogenesis imperfecta — a similar condition to above, but affects the underlying layer of the tooth
Hypercalcification
Hypocalcification
Deossification — loss of bone tissue
Dental fluorosis — white spotted, yellow, brown, black and sometimes pitted teeth from over-ingesting fluoride
Supernumerary roots — presence of a higher-than-normal number of roots on a tooth. Most common in maxillary bicuspids.
Abnormalities with number of teeth
- Anodontia — total lack of tooth development
- Hyperdontia — presence of a higher-than-normal number of teeth
- Hypodontia — missing teeth
Abnormalities with size of teeth
- Microdontia
- Macrodontia
Abnormalities in shape of teeth
- Tooth Gemination
- Tooth Fusion — the union of two adjacent tooth germs by dentin during formation)
- Concrescence
- Talon cusp
- Cusp of Carabelli
- Dens evaginatus — cusp-like elevation of enamel
- Dens in dente — also called Dens invaginatus
- Ectopic enamel
- Taurodontism
- Hypercementosis
- Dilaceration — trauma to the tooth during formation causing damage to the root structure
- Supernumerary roots — presence of a higher-than-expected number of roots on a tooth

Development

Tooth development is the complex process by which teeth form from embryonic cells, grow, and erupt into the mouth. Although many diverse species have teeth, non-human tooth development is largely the same as in humans. For human teeth to have a healthy oral environment, enamel, dentin, cementum, and the periodontium must all develop during appropriate stages of fetal development. Primary (baby) teeth start to form between the sixth and eighth weeks in utero, and permanent teeth begin to form in the twentieth week in utero.^[20] If teeth do not start to develop at or near these times, they will not develop at all.

A significant amount of research has focused on determining the processes that initiate tooth development. It is widely accepted that there is a factor within the tissues of the first branchial arch that is necessary for the development of teeth.^[21] The tooth bud (sometimes called the tooth germ) is an aggregation of cells that eventually forms a tooth and is organized into three parts: the enamel organ, the dental papilla and the dental follicle.^[22]

The enamel organ is composed of the outer enamel epithelium, inner enamel epithelium, stellate reticulum and stratum intermedium.^[22] These cells give rise to ameloblasts, which produce enamel and the reduced enamel epithelium. The growth of cervical loop cells into the deeper tissues forms Hertwig's Epithelial Root Sheath, which determines the root shape of the tooth. The dental papilla contains cells that develop into odontoblasts, which are dentin-forming cells.^[22] Additionally, the junction between the dental papilla and inner enamel epithelium determines the crown shape of a tooth.^[23] The dental follicle gives rise to three important entities: cementoblasts, osteoblasts, and fibroblasts. Cementoblasts form the cementum of a tooth. Osteoblasts give rise to the alveolar bone around the roots of teeth. Fibroblasts develop the periodontal ligaments which connect teeth to the alveolar bone through cementum.^[24]

Tooth development is commonly divided into the following stages: the bud stage, the cap, the bell, and finally maturation. The staging of tooth development is an attempt to categorize changes that take place along a continuum; frequently it is difficult to decide what stage should be assigned to a particular developing tooth.^[21] This determination is further complicated by the varying appearance of different histologic sections of the same developing tooth, which can appear to be different stages.

Facts about teeth in animals

Rodents' incisors grow continuously throughout their lives.
Reptiles' and sharks' teeth are replaced constantly, before they wear out. A crocodile replaces its teeth over forty times in a lifetime.
Elephants' tusks are specialized incisors for digging food up and fighting.
Turtles and tortoises are toothless
The narwhals giant unicorn-like tusk is a tooth that contains millions of sensory pathways and may be used for sensing in feeding, navigation and mating. It is the most neurologically complex tooth known.
Horse teeth can be used to estimate the animal's age, and some horses have a form of premolars called Wolf teeth.

References

^ Ross, Michael H., Gordon I. Kaye, and Wojciech Pawlina, "Histology: a Text and Atlas", 4th ed. (Baltimore: Lippincott Williams & Wilkins, 2002), p. 441.
^ Cate, A. R. Ten, "Oral Histology: Development, Structure, and Function", 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 1.
^ Cate, A. R. Ten, "Oral Histology: Development, Structure, and Function", 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 219.
^ ^a ^b Johnson, Clarke. "Biology of the Human Dentition," 1998. Page accessed on Janurary 24, 2007.
^ Cate, A. R. Ten, "Oral Histology: Development, Structure, and Function", 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 219.
^ Cate, A. R. Ten, "Oral Histology: Development, Structure, and Function", 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 198.
^ Dental Cavities, MedlinePlus Medical Encyclopedia, page accessed August 14, 2006.
^ ^a ^b Epidemiology of Dental Disease, hosted on the University of Illinois at Chicago website. Page accessed January 9, 2007.
^ Suddick, Richard P. and Norman O. Harris. "Historical Perspectives of Oral Biology: A Series". Critical Reviews in Oral Biology and Medicine, 1(2), pages 135-151, 1990.
^ Healthy People: 2010. Html version hosted on Healthy People.gov website. Page accessed August 13, 2006.
^ "Dental caries", from the Disease Control Priorities Project. Page accessed August 15, 2006.
^ Touger-Decker, Riva and Cor van Loveren. Sugars and dental caries, The American Journal of Clinical Nutrition, 78, 2003, pages 881S–892S.
^ Hardie, J.M. (1982). The microbiology of dental caries. Dental Update, 9, 199-208.
^ Holloway, P.J. (1983). The role of sugar in the etiology of dental caries. Journal of Dentistry, 11, 189-213.
^ ^a ^b Oral Health Topics: Cleaning your teeth and gums. Hosted on the American Dental Association website. Page accessed August 15, 2006.
^ Introduction to Dental Plaque. Hosted on the Leeds Dental Institute Website, page accessed August 14, 2006.
^ Thumbs down for electric toothbrush, hosted on the BBC News] website, posted January 21, 2003. Page accessed January 23, 2007.
^ Cate, A.R. Ten. "Oral Histology: development, structure, and function." 5th edition, 1998, p. 223. ISBN 0-8151-2952-1.
^ Ross, Michael H., Gordon I. Kaye, and Wojciech Pawlina, 2003. "Histology: a text and atlas." 4th edition, p. 453. ISBN 0-683-30242-6.
^ A. R. Ten Cate, Oral Histology: Development, Structure, and Function, 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 95. ISBN 0-8151-2952-1.
^ ^a ^b A. R. Ten Cate, Oral Histology: Development, Structure, and Function, 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 81. ISBN 0-8151-2952-1.
^ ^a ^b ^c *University of Texas Medical Branch. "Lab Exercises: Tooth development." Page found here.
^ A. R. Ten Cate, Oral Histology: Development, Structure, and Function, 5th ed. (Saint Louis: Mosby-Year Book, 1998), pp. 86 and 102. ISBN 0-8151-2952-1.
^ *Ross, Michael H., Gordon I. Kaye, and Wojciech Pawlina. Histology: a text and atlas. 4th edition, p. 453. 2003. ISBN 0-683-30242-6.

External links

Template:Commons2

[1] Ross, Michael H., Gordon I. Kaye, and Wojciech Pawlina, "Histology: a Text and Atlas", 4th ed. (Baltimore: Lippincott Williams & Wilkins, 2002), p. 441.

[2] Cate, A. R. Ten, "Oral Histology: Development, Structure, and Function", 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 1.

[3] Cate, A. R. Ten, "Oral Histology: Development, Structure, and Function", 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 219.

[biology-4] Johnson, Clarke. "Biology of the Human Dentition," 1998. Page accessed on Janurary 24, 2007.

[5] Cate, A. R. Ten, "Oral Histology: Development, Structure, and Function", 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 219.

[6] Cate, A. R. Ten, "Oral Histology: Development, Structure, and Function", 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 198.

[medline-7] Dental Cavities, MedlinePlus Medical Encyclopedia, page accessed August 14, 2006.

[uicanthropology-8] Epidemiology of Dental Disease, hosted on the University of Illinois at Chicago website. Page accessed January 9, 2007.

[suddickhistorical-9] Suddick, Richard P. and Norman O. Harris. "Historical Perspectives of Oral Biology: A Series". Critical Reviews in Oral Biology and Medicine, 1(2), pages 135-151, 1990.

[10] Healthy People: 2010. Html version hosted on Healthy People.gov website. Page accessed August 13, 2006.

[DCPP-11] "Dental caries", from the Disease Control Priorities Project. Page accessed August 15, 2006.

[Tougersugars-12] Touger-Decker, Riva and Cor van Loveren. Sugars and dental caries, The American Journal of Clinical Nutrition, 78, 2003, pages 881S–892S.

[Hardie1982-13] Hardie, J.M. (1982). The microbiology of dental caries. Dental Update, 9, 199-208.

[holloway1983-14] Holloway, P.J. (1983). The role of sugar in the etiology of dental caries. Journal of Dentistry, 11, 189-213.

[adaoralhealth-15] Oral Health Topics: Cleaning your teeth and gums. Hosted on the American Dental Association website. Page accessed August 15, 2006.

[16] Introduction to Dental Plaque. Hosted on the Leeds Dental Institute Website, page accessed August 14, 2006.

[17] Thumbs down for electric toothbrush, hosted on the BBC News] website, posted January 21, 2003. Page accessed January 23, 2007.

[18] Cate, A.R. Ten. "Oral Histology: development, structure, and function." 5th edition, 1998, p. 223. ISBN 0-8151-2952-1.

[19] Ross, Michael H., Gordon I. Kaye, and Wojciech Pawlina, 2003. "Histology: a text and atlas." 4th edition, p. 453. ISBN 0-683-30242-6.

[20] A. R. Ten Cate, Oral Histology: Development, Structure, and Function, 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 95. ISBN 0-8151-2952-1.

[cate81-21] A. R. Ten Cate, Oral Histology: Development, Structure, and Function, 5th ed. (Saint Louis: Mosby-Year Book, 1998), p. 81. ISBN 0-8151-2952-1.

[utmb-22] *University of Texas Medical Branch. "Lab Exercises: Tooth development." Page found here.

[cate86and102-23] A. R. Ten Cate, Oral Histology: Development, Structure, and Function, 5th ed. (Saint Louis: Mosby-Year Book, 1998), pp. 86 and 102. ISBN 0-8151-2952-1.

[24] *Ross, Michael H., Gordon I. Kaye, and Wojciech Pawlina. Histology: a text and atlas. 4th edition, p. 453. 2003. ISBN 0-683-30242-6.

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@@ Line 109: / Line 109: @@
 {{main|Oral hygiene}}
-Oral hygiene is the practice of keeping the mouth clean, and is means of prevention from dental caries, [[gingivitis]], [[periodontal disease]], [[halitosis|bad breath]], and other dental disorders. It consists of both professional and personal care.  Regular cleanings, usually done by dentists and dental hygienists, are recommended to remove [[Calculus (dental)|tartar]] (mineralized plaque) that may develop even with careful brushing and flossing.  Professional cleaning includes [[tooth scaling]], using various instruments or devices to loosen and remove deposits from the teeth.
+Oral hygiene is the practice of keeping the mouth clean, and is means of prevention from dental caries, [[gingivitis]], [[periodontal disease]], [[halitosis|bad breath]], and other dental disorders. If you take care of your teeth properly, then you might end up with [[well cool teeth]]. Examples of people with such teeth are [[Lucy]] and [[Me]]. It consists of both professional and personal care.  Regular cleanings, usually done by dentists and dental hygienists, are recommended to remove [[Calculus (dental)|tartar]] (mineralized plaque) that may develop even with careful brushing and flossing.  Professional cleaning includes [[tooth scaling]], using various instruments or devices to loosen and remove deposits from the teeth.
 Regular brushing is recommended by healthcare professionals twice a day in order to prevent formation of plaque and tartar.  <ref name="adaoralhealth">[http://www.ada.org/public/topics/cleaning.asp Oral Health Topics: Cleaning your teeth and gums]. Hosted on the American Dental Association website. Page accessed August 15, 2006.</ref>.  A toothbrush is able to remove plaque on most surfaces of the teeth except for areas between teeth.  As a result, flossing is also considered a necessity to maintain oral hygiene.  When used correctly, dental floss removes plaque from areas which could otherwise develop caries.  The purpose of cleaning teeth is to remove plaque, which consists mostly of bacteria.<ref>[http://www.dentistry.leeds.ac.uk/OROFACE/PAGES/micro/micro2.html Introduction to Dental Plaque]. Hosted on the Leeds Dental Institute Website, page accessed August 14, 2006.</ref>  [[Electric toothbrush]]es are not considered more effective than the manual variety.<ref>[http://news.bbc.co.uk/1/hi/health/2679175.stm Thumbs down for electric toothbrush], hosted on the [http://news.bbc.co.uk BBC News]] website, posted January 21, 2003. Page accessed January 23, 2007.</ref>  The most important advantages of electric toothbrushes is the ability to aid people with dexterity difficulties, such as those associated with [[rheumatoid arthritis]].